6.2B.4 Configured output power for DC

38.101-33GPPNRPart 3: Range 1 and Range 2 Interworking operation with other radiosRelease 17TSUser Equipment (UE) radio transmission and reception

6.2B.4.1 Configured output power level

6.2B.4.1.1 Intra-band contiguous EN-DC

The following requirements apply for one component carrier per CG configured for synchronous DC.

For intra-band dual connectivity with one uplink serving cell per CG on E-UTRA and NR respectively, the UE is allowed to set its configured maximum output power P_CMAX,c(i),i for serving cell c(i) of CG i, i = 1,2, and its total configured maximum transmission power for EN-DC operation = 10log10() with as specified in clause 7.6 of TS 38.213 [10].

The configured maximum output power P_{CMAX_ E-UTRA,c} (p) in sub-frame p for the configured E-UTRA uplink carrier shall be set within the bounds:

P_{CMAX_L_ E-UTRA,c} (p) ≤ P_{CMAX_ E-UTRA,c} (p) ≤ P_{CMAX H _ E-UTRA,c} (p)

where P_{CMAX_L_ E-UTRA,c} and P_{CMAX H _ E-UTRA,c} are the limits for a serving cell c as specified in TS 36.101 [4] clause 6.2.5 modified by P_LTE as follows:

P_{CMAX_L_ E-UTRA,c} = MIN {MIN(P_EMAX,c , P_{EMAX, EN-DC}, P_LTE) – t_{C_ E-UTRA, c}, (P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} ), (P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}) – MAX(MPR_c + A-MPR_c + ΔT_IB,c + T_{C_ E-UTRA, c} + T_ProSe, P-MPR_c)}

P_{CMAX H _ E-UTRA,c} = MIN {P_EMAX,c, P_{EMAX, EN-DC} , P_LTE, P_{PowerClass, EN-DC}, P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}}

where

– P_EMAX,EN-DC is the value given by the field p-maxUE-FR1 of the RRCConnectionReconfiguration-v1530 IE as defined in TS 36.331 [8];

– P_LTE is the value given by the field p-maxEUTRA-r15 of the RRCConnectionReconfiguration-v1510 IE as defined in TS 36.331 [8] which is the same as P_LTE in TS 38.213 [10];

– ∆t_{C_EUTRA, c} = 1.5 dB when NOTE 2 in Table 6.2.2-1 of TS 36.101 [4] applies; ∆t_{C_EUTRA, c} = 0 dB otherwise;

and whenever NS_01 is not indicated within CG 1:

– for a UE indicating support of dynamicPowerSharing, the MPR_c and the A-MPR_c are determined in accordance with the DCI of serving cell c of the CG 1 and the specification in clause 6.2.4 of TS 36.101 [4];

– for a UE not indicating support of dynamicPowerSharing, the A-MPR_c is determined in accordance with clause 6.2B.3.1 with parameters applicable for UEs not indicating support of dynamicPowerSharing and MPR_c = 0 dB;

and whenever NS_01 is indicated in CG 1:

– for a UE indicating support of dynamicPowerSharing, the MPR_c is determined in accordance with the DCI of serving cell c of the CG 1 and the specification in clause 6.2.4 of TS 36.101 [4];

– for a UE not indicating support of dynamicPowerSharing, the MPR_c is determined in accordance with clause 6.2B.2.1 with parameters applicable for UEs not indicating support of dynamicPowerSharing and A-MPR_c = 0 dB;

The configured maximum output power P_CMAX,f,c,NR (q) in physical channel q for the configured NR carrier shall be set within the bounds:

P_{CMAX_L,f,c,,NR} (q) ≤ P_CMAX,f,c,NR (q) ≤ P_{CMAX_H,f,c,NR} (q)

where P_{CMAX_L,f,c,NR} and P_{CMAX_H,f,c,NR} are the limits for a serving cell c as specified in clause 6.2.4 of TS 38.101-1 [2] modified as follows:

P_{CMAX_L,f,c,,NR} = MIN {MIN(P_EMAX,c , P_{EMAX, EN-DC}, P_NR) – T_{C_NR, c}, (P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} ), (P_{PowerClass,NR} – ΔP_{PowerClass,NR}) – MAX(MAX(MPR_c,A-MPR_c)+ ΔT_IB,c + T_{C_NR, c} + ∆T_RxSRS, P-MPR_c) }

P_{CMAX_H,f,c,NR} = MIN {P_EMAX,c, P_{EMAX, EN-DC}, P_NR, P_{PowerClass, EN-DC}, P_{PowerClass,NR} – ΔP_{PowerClass,NR} }

where

– P_EMAX,EN-DC is the value given by the field p-maxUE-FR1 of the RRCConnectionReconfiguration-v1530 IE as defined in TS 36.331 [8];

– P_LTE signalled by RRC as p-MaxEUTRA-r15 in TS 36.331 [8]

– P_NR is the value given by the field p-NR-FR1 of the PhysicalCellGroupConfig IE as defined in [9] and signalled by RRC;

– ΔT_{c_E-UTRA, c} = 1.5dB when NOTE 2 in Table 6.2.2-1 in TS 36.101 [4] applies for a serving cell c, otherwise T_{C_ E-UTRA,c} = 0dB;

– T_{C_NR,c} = 1.5dB when NOTE 3 in Table 6.2.1-1 in TS 38.101-1 [2] applies for a serving cell c, otherwise T_{C_NR,c} = 0dB;

– ΔT_IB,c specified in clause 6.2B.4.2.1 for EN-DC, the individual Power Class defined in table 6.2B.1.1 and any other additional power reductions parameters specified in clauses 6.2B.2 and 6.2B.3 for EN-DC are applicable to P_{CMAX_ E-UTRA,c} and P_CMAX,f,c,NR evaluations.

– P_{PowerClass, EN-DC} is defined in clause 6.2B.1.1 for intra-band contiguous EN-DC;

– P_{PowerClass,NR} is the nominal UE power of the power class that the UE supports for the NR band of the EN-DC combination as defined in clause 6.2.1 of 38.101-1 [2]; in case IE [powerClassNRPart] as defined in TS 38.331 [9] is indicated, P_{PowerClass,NR} should use that value instead;

– ΔP_{PowerClass,NR} is 3 dB, 6 dB, or 0 dB according to clause 6.2.4 of TS 38.101-1 [2] for a UE that supports power class 2 or power class 1.5 in the NR band of the EN-DC combination as defined in clause 6.2.1 of TS 38.101-1 [2];

– P_{PowerClass,E-UTRA} is the nominal UE power of the power class that the UE supports for the E-UTRA band of the EN-DC combination as defined in clause 6.2.2 of 36.101 [4];

– ΔP_{PowerClass,E-UTRA} is 3 dB or 0 dB according to clause 6.2.5 of TS 36.101 [4] for a UE that supports power class 2 in the E-UTRA band of the EN-DC combination as defined in clause 6.2.2 of TS 36.101 [4];

– ΔP_{PowerClass,EN-DC} is 3 dB for a power class 2 capable EN-DC UE when LTE UL/DL configuration is 0 or 6; or LTE UL/DL configuration is 1 and special subframe configuration is 0 or 5; ΔP_{PowerClass,EN-DC} = 3 dB when the IE p-maxUE-FR1 as defined in TS 36.331 [4] is provided and set to the maximum output power of the default power class or lower; ΔP_{PowerClass,EN-DC} is 6 dB for a power class 1.5 capable EN-DC UE when the LTE UL duty cycle is greater than max(50%, maxUplinkDutyCycle-PC2-FR1); ΔP_{PowerClass,EN-DC} is 3 dB for a power class 1.5 capable EN-DC UE when the LTE UL duty cycle is between max(50%,maxUplinkDutyCycle-PC2-FR1) and max(25%,0.5*maxUplinkDutyCycle-PC2-FR1); otherwise ΔP_{PowerClass,EN-DC} = 0 dB; The IE maxUplinkDutyCycle-PC2-FR1 is defined in TS 38.331 [9].

and whenever an NS signalling other than NS_01 is indicated within CG 2:

– for a UE indicating support of dynamicPowerSharing, A-MPR_c = A-MPR’_c with A-MPR’_c determined in accordance with clause 6.2B.3.1 and MPR_c = 0 dB if transmission(s) in subframe p on CG 1 overlap in time with physical channel q on CG 2;

– for a UE indicating support of dynamicPowerSharing, A-MPR_c is determined in accordance with TS 38.101-1 [2] if transmission(s) in subframe p on CG 1 does not overlap in time with physical channel q on CG 2;

– for a UE not indicating support of dynamicPowerSharing, the A-MPR_c is determined in accordance with clause 6.2B.3.1 with parameters applicable for UEs not indicating support of dynamicPowerSharing and MPR_c = 0 dB;

and whenever NS_01 is indicated in CG 2.

– for a UE indicating support of dynamicPowerSharing, MPRc = MPR’c with MPR’c determined in accordance with clause 6.2B.2.1 and A-MPRc = 0 dB if transmission(s) in subframe p on CG 1 overlap in time with physical channel q on CG 2;

– for a UE indicating support of dynamicPowerSharing, MPRc is determined in accordance with TS 38.101-1 [2] if transmission(s) in subframe p on CG 1 does not overlap in time with physical channel q on CG 2;

– for a UE not indicating support of dynamicPowerSharing, the MPRc is determined in accordance with clause 6.2B.2.1 with parameters applicable for UEs not indicating support of dynamicPowerSharing and A-MPRc = 0 dB;

If the transmissions from NR and E-UTRA do not overlap, then the complete clauses for configured transmitted power for E-UTRA and NR respectively from their own specifications apply with the modifications specified above. The lower value between P_{PowerClass, EN-DC} or P_{EMAX, EN-DC} shall not be exceeded at any time by UE.

If the EN-DC UE is not supporting dynamic power sharing, then the complete clauses for configured transmitted power for E-UTRA and NR respectively from their own specifications TS 36.101 [4] and TS 38.101-1 [2] respectively apply with the modifications specified above.

If the UE does not support dynamic power sharing,

= MIN { P_{EMAX, EN-DC} , P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} } + 0.3 dB

For UEs indicating support of dynamicPowerSharing in the UE-MRDC-Capability IE the UE can configure the total maximum transmission power within the range

P_{EN-DC,tot_L} ≤ ≤ P_{EN-DC,tot_H}

where

P_{EN-DC,tot_L} (p,q) = MIN{ P_{PowerClass,EN-DC} – ΔP_{PowerClass,EN-DC} – MAX{MPR_tot, A-MPR_tot}, P_EMAX,EN-DC}

P_{EN-DC,tot_H} (p,q) = MIN{P_{PowerClass,EN-DC}, P_EMAX,EN-DC }

for sub-frame p on CG 1 overlapping with physical channel q on CG 2 and with MPR_tot and A-MPR_tot in accordance with 6.2B.2.1 and clause 6.2B.3.1, respectively.

The measured total maximum output power P_UMAX over both CGs/RATs, measured over the transmission reference time duration is

P_UMAX = 10 log₁₀ [p_{UMAX,c,E-UTRA} + p_UMAX,f,c,NR],

where p_{UMAX,c,E-UTRA} and p_UMAX,c,NR denotes the measured output power of serving cell c for E-UTRA and NR respectively, expressed in linear scale.

For UEs indicating support of dynamicPowerSharing, the measured total configured maximum output power P_UMAX shall be within the following bounds:

P_{CMAX_L} -T_LOW (P_{CMAX_L}) ≤ P_UMAX ≤ P_{CMAX_H} + T_HIGH (P_{CMAX_H})

with the tolerances T_LOW(P_{CMAX_L}) and T_HIGH(P_{CMAX_H}) for applicable values of P_{CMAX_L} and P_{CMAX_L} specified in Table 6.2B.4.1.1-2.

When an UL subframe transmission p from E-UTRA overlap with a physical channel q from the NR, then for P_UMAX evaluation, the E-UTRA subframe p is taken as reference period T_REF and always considered as the reference measurement duration and the following rules are applicable.

T_REF and T_eval are specified in Table 6.2B.4.1.1-1 when same or different subframes and physical channel durations are used in aggregated carriers. The lesser of P_{PowerClass ,EN-DC} and P_EMAX,EN-DC shall not be exceeded by the UE during any evaluation period of time.

Table 6.2B.4.1.1-1: P_CMAX evaluation window

transmission duration	TREF	Teval
Different transmission duration in different RAT carriers	E-UTRA Subframe	Min(Tno_hopping, Physical Channel Length)

For each T_REF, the P_{CMAX_H} is evaluated per T_eval and given by the maximum value over the transmission(s) within the T_eval as follows:

P_{CMAX_H} = MAX { P_{CMAX_ EN-DC _H} (p,q) , P_{CMAX_ EN-DC _H} (p,q+1), … , P_{CMAX_ EN-DC _H} (p,q+n) }

where P_{CMAX_ EN-DC _H} are the applicable upper limits for each overlapping scheduling unit pairs (p,q) , (p, q+1) , up to (p, q+n) for each applicable T_eval duration, where q+n is the last NR UL physical channel overlapping with E-UTRA subframe p.

While P_{CMAX_L} is computed as follows:

P_{CMAX_L} = MIN { P_{CMAX_ EN-DC _L} (p,q) , P_{CMAX_ EN-DC _L} (p,q+1), … , P_{CMAX_ EN-DC _L} (p,q+n)}

where P_{CMAX_EN-DC_L} are the applicable lower limits for each overlapping scheduling unit pairs (p,q) , (p, q+1) , up to (p, q+n) for each applicable T_eval duration, where q+n is the last NR UL physical channel overlapping with E-UTRA subframe p,

With

P_{CMAX_ EN-DC _H}(p,q) = MIN {10 log₁₀ [p_{CMAX H _ E-UTRA,c} (p) + p_{CMAX H,f,c,NR} (q)], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC}}

And:

a= 10 log₁₀ [p_{CMAX_ E-UTRA,c} (p) +p_CMAX,f,c,NR (q) ] > P_{EN-DC,tot_L}

b= 10 log₁₀ [p_{CMAX_ E-UTRA,c} (p) +p_CMAX,f,c,NR (q) /X_scale] > P_{EN-DC,tot_L}

If a= FALSE and the configured transmission power spectral density between the MCG and SCG differs by less than 6 dB

P_{CMAX_ EN-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) + p_{CMAX L,f,c,,NR} (q)], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} }

ELSE If (a=TRUE) AND (b=FALSE) and the configured transmission power spectral density between the MCG and SCG differs by less than 6 dB

P_{CMAX_ EN-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) + p_{CMAX L,f,c,,NR} (q) /X_scale ], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} }

ELSE If b= TRUE or the transmission power after power scaling spectral density between the MCG and SCG differs by more than 6 dB

P_{CMAX_ EN-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) ], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC}– ΔP_{PowerClass,EN-DC} }

where

– p_{CMAX H _ E-UTRA,c} (p) is the E-UTRA higher limit of the maximum configured power expressed in linear scale;

– p_{CMAX H,f,c,NR} (q) is the NR higher limit of the maximum configured power expressed in linear scale;

– p_{CMAX L _ E-UTRA,c} (p) is the E-UTRA lower limit of the maximum configured power expressed in linear scale;

– p_{CMAX L,f,c,NR} (q) is the NR lower limit of the maximum configured power expressed in linear scale;

– P_{PowerClass, EN-DC} is defined in clause 6.2B.1.1 for intra-band EN-DC;

– X_scale is the linear value of X dB which is configured by RRC and can only take values [0 , 6] dB

– p_{CMAX E-UTRA,c} (p) is the linear value of P_{CMAX E-UTRA,c} (p), the real configured max power for E-UTRA

– p_{CMAX,f,c NR} (q) is the linear value of P_CMAX,f,c,NR (q), the real configured max power of NR

Table 6.2B.4.1.1-2: P_CMAX tolerance for Dual Connectivity E-UTRA-NR

PCMAX(dBm)	Tolerance TLOW (PCMAX_L) (dB)	Tolerance THIGH (PCMAX_H) (dB)
23 ≤ PCMAX ≤ 33	3.0	2.0
22 ≤ PCMAX < 23	5.0	2.0
21 ≤ PCMAX< 22	5.0	3.0
20 ≤ PCMAX < 21	6.0	4.0
16 ≤ PCMAX < 20	5.0
11 ≤ PCMAX < 16	6.0
-40 ≤ PCMAX < 11	7.0

If the UE supports dynamic power sharing, and when E-UTRA and NR transmissions overlap and the condition (If (a=TRUE) AND (b=FALSE)) is met, SCG shall be transmitted and the following supplementary minimum requirement apply for the measured SCG power, P_UMAX,f,c,NR (q), under nominal conditions and unless otherwise stated

10log(p_{CMAX L,f,c,NR}(q)/X_scale) – T_LOW (10log(p_{CMAX L,f,c,NR}(q)/X_scale) )} ≤ P_UMAX,f,c,NR (q) ≤ 10log(p_{CMAX H, f,c,NR} (q)) + T_HIGH (10log(p_{CMAX H, f,c,NR} (q))).

with the tolerances T_LOW and T_HIGH for applicable values of P_CMAX specified in Table 6.2B.4.1.1-2.

If the UE supports dynamic power sharing, the measured maximum output power in subframe p on CG 1, p_{UMAX,c,E-UTRA}, shall meet the requirements in clause 6.2.5 in TS 36.101 [4] with the limits P_{CMAX_L,c} and P_{CMAX_H,c} replaced by P_{CMAX_L_ E-UTRA,c} and P_{CMAX_H_ E- UTRA,c} as specified above, respectively.

If the configured transmission power spectral density between the MCG and SCG differs by more than 6 dB, then

P_UMAX,f,c,NR (q) ≤ 10log(p_{CMAX H, f,c,NR} (q)) + T_HIGH (10log(p_{CMAX H, f,c,NR} (q))).

6.2B.4.1.2 Intra-band non-contiguous EN-DC

The following requirements apply for one component carrier per CG configured for synchronous DC. The CG(s) are indexed by j = 1 for MCG and j = 2 for SCG.

The configured maximum output power P_{CMAX_ E-UTRA,c} (p) in sub-frame p for the configured E-UTRA uplink carrier shall be set in accordance with clause 6.2B.4.1.1 but where

– for a UE not indicating support of dynamicPowerSharing, the A-MPR_c determined in accordance with clause 6.2B.3.2 with parameters applicable for UEs not indicating support of dynamicPowerSharing and MPR_c = 0 dB;

whenever NS_01 is not indicated within CG 1 while

– for a UE not indicating support of dynamicPowerSharing, the MPR_c determined in accordance with clause 6.2B.2.2 with parameters applicable for UEs not indicating support of dynamicPowerSharing and A-MPR_c = 0 dB;

whenever NS_01 is indicated in CG 1.

The configured maximum output power P_CMAX,f,c,NR (q) in physical channel q for the configured NR carrier shall be set in accordance with clause 6.2B.4.1.1 but where

– for a UE indicating support of dynamicPowerSharing, A-MPR_c = A-MPR’_c with A-MPR’_c determined in accordance with clause 6.2B.3.2 and MPR_c = 0 dB if transmission(s) in subframe p on CG 1 overlap in time with physical channel q on CG 2;

– for a UE indicating support of dynamicPowerSharing, A-MPR_c is determined in accordance with TS 38.101-1 [2] if transmission(s) in subframe p on CG 1 does not overlap in time with physical channel q on CG 2;

– for a UE not indicating support of dynamicPowerSharing, the A-MPR_c is determined in accordance with clause 6.2B.3.2 with parameters applicable for UEs not indicating support of dynamicPowerSharing and MPR_c = 0 dB;

whenever NS_01 is not indicated in CG 2 while

– for a UE indicating support of dynamicPowerSharing, MPR_c = MPR’_c with MPR’_c determined in accordance with clause 6.2B.2.2 and A-MPR_c = 0 dB if transmission(s) in subframe p on CG 1 overlap in time with physical channel q on CG 2;

– for a UE indicating support of dynamicPowerSharing, MPR_c is determined in accordance with TS 38.101-1 [2] if transmission(s) in subframe p on CG 1 does not overlap in time with physical channel q on CG 2;

– for a UE not indicating support of dynamicPowerSharing, the MPR_c is determined in accordance with clause 6.2B.2.2 with parameters applicable for UEs not indicating support of dynamicPowerSharing and A-MPR_c = 0 dB;

whenever NS_01 is indicated in CG 2.

For UEs indicating support of dynamicPowerSharing in the UE-MRDC-Capability IE, the UE can configure the total transmission power in accordance with clause 6.2B.4.1.1 but with P_{powerclass,EN-DC} the EN-DC power class of the intra-band non-contiguous band combination configured and A-MPR determined in accordance with clause 6.2B.3.2.

The total maximum output power P_UMAX over both CGs is measured in accordance with clause 6.2B.4.1.1 and shall be within the limits specified in clause 6.2B.4.1.1 but with parameters applicable for the non-contiguous band combination configured.

The maximum output power levels p_{UMAX,c,E-UTRA} and p_UMAX,f,c,NR for the CGs are measured in accordance with clause 6.2B.4.1.1 and shall be within the limits specified in clause 6.2B.4.1.1 but with parameters applicable for the non-contiguous band combination configured.

6.2B.4.1.3 Inter-band EN-DC within FR1

For inter-band dual connectivity with one uplink serving cell or more than one uplink serving cells configured for intra-band UL CA on the E-UTRA CG and one uplink serving cell on the NR CG or more than one uplink serving cells configured for intra-band UL CA, the UE is allowed to set its configured maximum output power P_CMAX,c(i),i for serving cell c(i) of CG i, i = 1,2, and its total configured maximum transmission power for EN-DC operation, = 10log10() with as specified in clause 7.6 of TS 38.213 [10]. For EN-DC with more than one uplink serving cells configured for intra-band UL CA on the E-UTRA CG, the P_CMAX applies to the entire E-UTRA CG. For EN-DC with more than one uplink serving cells configured for intra-band UL CA on the NR CG, the P_CMAX applies to the entire NR CG.

For a UE configured with EN-DC and serving cell frame structure type 1, if the UE is configured with subframeAssignment-r15 for the serving cell and E-UTRA Pcell is FDD, the UE is not expected to be configured with more than one serving cells in the uplink.

The configured maximum output power P_{CMAX_ E-UTRA,c} (p) in sub-frame p for the configured E-UTRA uplink carrier(s) shall be set within the bounds:

P_{CMAX_L_ E-UTRA,c} (p) ≤ P_{CMAX_ E-UTRA,c} (p) ≤ P_{CMAX H _ E-UTRA,c} (p)

where P_{CMAX_L_ E-UTRA,c} and P_{CMAX H _ E-UTRA,c} are the limits for a serving cell c as specified in TS 36.101 [4] clause 6.2.5 modified by P_LTE as follows:

P_{CMAX_L_ E-UTRA,c} = MIN { P_{EMAX, EN-DC} , (P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} ), MIN(P_EMAX,c , P_LTE) – t_{C_ E-UTRA, c}, (P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}) – MAX(MPR_c + A-MPR_c + ΔT_IB,c + t_{C_ E-UTRA, c} + T_ProSe, P-MPR_c)}

P_{CMAX H _ E-UTRA,c} = MIN {P_EMAX,c, P_{EMAX, EN-DC} , (P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} ), P_LTE, P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}}

For EN-DC with more than one uplink serving cells configured for intra-band UL CA on the E-UTRA CG, P_{CMAX_L_ E-UTRA,c} and P_{CMAX H _ E-UTRA,c} are the limits for the E-UTRA CG as specified in TS 36.101 [4] clause 6.2.5A modified by P_LTE as follows:

P_{CMAX_L_ E-UTRA,c} = MIN{10 log₁₀ ∑ p_EMAX,c – T_C , (P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}) – MAX(MPR + A-MPR + ΔT_IB,c + T_C + T_ProSe, P-MPR ), P_LTE, P_{PowerClass,EN-DC} }

P_{CMAX H _ E-UTRA,c} = MIN{10 log₁₀ ∑ p_EMAX,c , P_{PowerClass,E-UTRA}, P_LTE, P_{PowerClass,EN-DC}}

The configured maximum output power P_CMAX,f,c,NR (q) in physical-channel q for the configured NR carrier shall be set within the bounds:

P_{CMAX_L,f,c,NR} (q) ≤ P_CMAX,f,c,NR (q) ≤ P_{CMAX_H,f,c,NR} (q)

where P_{CMAX_L,f,c,NR} and P_{CMAX_H,f,c,NR} are the limits for a serving cell c as specified in clause 6.2.4 of TS 38.101-1 [2] modified as follows:

P_{CMAX_L,f,c,NR} = MIN { P_{EMAX, EN-DC} , (P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} ), MIN(P_EMAX,c , P_NR ) – T_{C_NR, c}, (P_{PowerClass,NR} – ΔP_{PowerClass,NR}) – MAX(MAX(MPR_c, A-MPR_c)+ ΔT_IB,c + T_{C_NR, c} + ∆T_RxSRS, P-MPR_c) }

P_{CMAX_H,f,c,NR} = MIN {P_EMAX,c, P_{EMAX, EN-DC} , (P_{PowerClass, EN-DC} – ΔP_{PowerClass,EN-DC} ), P_NR , P_{PowerClass,NR} – ΔP_{PowerClass,NR} }

For EN-DC with more than one uplink serving cells configured for intra-band UL CA on the NR CG, P_{CMAX_L,f,c, NR} and P_{CMAX_H,f,c, NR} are the limits for the NR CG as specified in [2] subclause 6.2A.4 modified by P_NR as follows:

P_{CMAX_L,f,c,NR} = MIN{10 log₁₀ ∑ p_EMAX,c – T_C , P_EMAX,CA, P_{PowerClass,NR} – MAX(MPR + A-MPR + ΔT_IB,c + T_{_NR ,C} + T_RxSRS, P-MPR ), P_NR, P_{PowerClass,EN-DC} }

P_{CMAX_H,f,c,NR} = MIN{10 log₁₀ ∑ p_EMAX,c , P_EMAX,CA, P_{PowerClass,NR}, P_NR, P_{PowerClass,EN-DC}}

where

– P_EMAX,EN-DC is the value given by the field p-maxUE-FR1 of the RRCConnectionReconfiguration-v1530 IE as defined in TS 36.331 [8];

– If more than one E-UTRA uplink serving cell is configured as intra-band UL CA in the E-UTRA CG, P_PowerClass refers to the maximum output power of the E-UTRA intra-band CA power class given in Table 6.2.2A-1 of TS 36.101 [4],

– If more than one NR uplink serving cell is configured as intra-band UL CA in the NR CG, P_PowerClass refers to the maximum output power of the NR intra-band CA power class given in sub clause 6.2A.1 of [2],

– P_LTE is the value given by the field p-maxEUTRA-r15 of the RRCConnectionReconfiguration-v1510 IE as defined in TS 36.331 [8];

– If more than one E-UTRA uplink serving cell is configured as intra-band UL CA in the E-UTRA CG, MPR_c = MPR and A-MPR_c = A-MPR with MPR and A-MPR specified in clause 6.2.3A and clause 6.2.4A of TS 36.101 [4] respectively. There is one power management term for the UE, denoted P-MPR, and P-MPR _c = P-MPR. P_{CMAX_ E-UTRA,c} is calculated under the assumption that the transmit power is increased by the same amount in dB on all component carriers within the E-UTRA CG.

– If more than one NR uplink serving cell is configured as intra-band UL CA in the NR CG, MPR_c and A-MPR_c are determined by subclause 6.2.2 of [2]. There is one power management term for the UE, denoted P-MPR, and P-MPR _c = P-MPR.

– P_NR is the value given by the field p-NR-FR1 of the PhysicalCellGroupConfig IE as defined in TS 38.331 [9];

– Δt_{c_E-UTRA, c} = 1.5 dB when NOTE 2 in Table 6.2.2-1 in TS 36.101 [4] applies for a serving cell c, otherwise T_{C_ E-UTRA,c} = 0 dB;

– T_{C_NR,c} = 1.5dB when NOTE 3 in Table 6.2.1-1 in TS 38.101-1 [2] applies for a serving cell c, otherwise T_{C_NR,c} = 0 dB;T_C__NR,C is the highest value T_{C_NR,C} among all serving cells c if more than one NR uplink serving cell is configured as intra-band UL CA in the NR CG;

– P_{PowerClass, EN-DC} is defined in clause 6.2B.1.3 for inter-band EN-DC; if the UE indicates [HigherPowerLimitCADC] and ΔP_{PowerClass,EN-DC} = 0, P_{PowerClass,EN-DC} is replaced by the sum of the linear powers of P_{PowerClass,NR} and P_{PowerClass,E-UTRA} converted to dB;

– ∆P_{PowerClass,EN-DC} = 3 dB for a power class 2 capable EN-DC UE when requirements of default power class had been applied as specified in sub-clause 6.2B.1; otherwise ∆P_{PowerClass,EN-DC} = 0 dB;

– P_{PowerClass,NR} is the nominal UE power of the power class that the UE supports for the NR band of the EN-DC combination as defined in clause 6.2.1 of 38.101-1 [2]; in case IE [powerClassNRPart] as defined in TS 38.331 [9] is indicated, P_{PowerClass,NR} should use that value instead;

– ΔP_{PowerClass,NR} is 3 dB or 0 dB according to clause 6.2.4 of TS 38.101-1 [2] for a UE that supports power class 2 in the NR band of the EN-DC combination as defined in clause 6.2.1 of TS 38.101-1 [2];

– P_{PowerClass,E-UTRA} is the nominal UE power of the power class that the UE supports for the E-UTRA band of the EN-DC combination as defined in clause 6.2.2 of 36.101 [4];

– ΔP_{PowerClass,E-UTRA} is 3 dB or 0 dB according to clause 6.2.5 of TS 36.101 [4] for a UE that supports power class 2 in the E-UTRA band of the EN-DC combination as defined in clause 6.2.2 of TS 36.101 [4];

– ΔT_IB,c specified in clause 6.2B.4.2.3 for EN-DC, the individual Power Class defined in table 6.2B.1.3 and any other additional power reductions parameters specified in clauses 6.2B.2 and 6.2B.3for EN-DC are applicable to P_{CMAX_ E-UTRA,c} and P_CMAX,f,c,NR evaluations.

– ∆T_RxSRS is the highest value among all serving cells c.

If the transmissions from NR and E-UTRA do not overlap, then the complete clauses for configured transmitted power for E-UTRA and NR respectively from their own specifications apply with the modifications specified above. The lower value between P_{PowerClass, EN-DC} or P_{EMAX, EN-DC} shall not be exceeded at any time by UE.

= 10log10() with the configured maximum transmission power for EN-DC operation as specified in clause 7.6 of TS 38.213 [10].

The total configured maximum transmission power for both synchronous and non-synchronous operation is

= MIN { P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC} – ΔP_{PowerClass, EN-DC} }

If the UE does not support dynamic power sharing,

= MIN { P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC} – ΔP_{PowerClass, EN-DC} } + 0.3 dB

If the EN-DC UE does not support dynamic power sharing, then the complete clauses for configured transmitted power for E-UTRA and NR respectively from their own specifications TS 36.101 [4] and TS 38.101-1 [2] respectively apply with the modifications specified above and applies.

When a UE supporting dynamic sharing is configured for overlapping E-UTRA uplink and NR uplink transmissions, the UE can set its configured maximum output power P_{CMAX_ E-UTRA,c} and P_CMAX,f,c,NR for the configured E-UTRA and NR uplink carriers, respectively, and its configured maximum transmission power for EN-DC operation, , as specified above.

The measured total maximum output power P_UMAX over both CGs/RATs, measured over the transmission reference time duration is

P_UMAX = 10 log₁₀ [p_{UMAX,c,E-UTRA} + p_UMAX,c,NR],

where p_{UMAX,c,E-UTRA} and p_UMAX,c,NR denotes the measured output power of serving cell c for E-UTRA and NR respectively, expressed in linear scale.

The measured total configured maximum output power P_UMAX shall be within the following bounds:

P_{CMAX_L} -T_LOW (P_{CMAX_L}) ≤ P_UMAX ≤ P_{CMAX_H} + T_HIGH (P_{CMAX_H})

with the tolerances T_LOW(P_{CMAX_H}) and T_HIGH(P_{CMAX_H}) for applicable values of P_CMAX specified in Table 6.2B.4.1.3-2.

When an UL subframe transmission p from E-UTRA overlap with a physical-channel q from the NR, then for P_UMAX evaluation, the E-UTRA subframe p is taken as reference period T_REF and always considered as the reference measurement duration and the following rules are applicable.

T_REF and T_eval are specified in Table 6.2B.4.1.3-1 when same or different subframe and physical-channel durations are used in aggregated carriers. The lesser of P_{PowerClass ,EN-DC} and P_EMAX,EN-DC shall not be exceeded by the UE during any evaluation period of time where P_{PowerClass ,EN-DC} is replaced by the sum of the linear powers of P_{PowerClass,NR} and P_{PowerClass,E-UTRA} converted to dB if the UE indicates [HigherPowerLimitCADC].

Table 6.2B.4.1.3-1: P_CMAX evaluation window

transmission duration	TREF	Teval
Different transmission duration in different RAT carriers	E-UTRA Subframe on all aggregated cells of E-UTRA	Min(Tno_hopping, Physical Channel Length) on all aggregated cells of NR

For each T_REF, the P_{CMAX_H} is evaluated per T_eval and given by the maximum value over the transmission(s) within the T_eval as follows:

P_{CMAX_H} = MAX { P_{CMAX_ EN-DC _H} (p,q) , P_{CMAX_ EN-DC _H} (p,q+1), … , P_{CMAX_ EN-DC _H} (p,q+n) }

where P_{CMAX_ EN-DC _H} are the applicable upper limits for each overlapping scheduling unit pairs (p,q) , (p, q+1) , up to (p, q+n) for each applicable T_eval duration, where q+n is the last NR UL physical-channel overlapping with E-UTRA subframe p.

While P_{CMAX_L} is computed as follows:

P_{CMAX_L} = MIN { P_{CMAX_ EN-DC _L} (p,q) , P_{CMAX_ EN-DC _L} (p,q+1), … , P_{CMAX_ EN-DC _L} (p,q+n)}

where P_{CMAX_EN-DC_L} are the applicable lower limits for each overlapping scheduling unit pairs (p,q) , (p, q+1) , up to (p, q+n) for each applicable T_eval duration, where q+n is the last NR UL physical-channel overlapping with E-UTRA subframe p,

With

P_{CMAX_ EN-DC _H}(p,q) = MIN {10 log₁₀ [p_{CMAX H _ E-UTRA,c} (p) + p_{CMAX H,f,c,NR} (q)], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC}}

And:

a= 10 log₁₀ [p_{CMAX_ E-UTRA,c} (p) +p_CMAX,f,c,NR (q) ] >

b= 10 log₁₀ [p_{CMAX_ E-UTRA,c} (p) +p_CMAX,f,c,NR (q) /X_scale] >

If a= FALSE

P_{CMAX_ EN-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) + p_{CMAX L,f,c,NR} (q)], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC}}

ELSE If (a=TRUE) AND (b=FALSE)

P_{CMAX_ EN-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) + p_{CMAX L,f,c,NR} (q) /X_scale ], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC}}

ELSE If b= TRUE

P_{CMAX_ EN-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) ], P_{EMAX, EN-DC} ,P_{PowerClass, EN-DC}}

where

– p_{CMAX H _ E-UTRA,c} (p) is the E-UTRA higher limit of the maximum configured power expressed in linear scale;

– p_{CMAX L,f,c,NR} (q) is the NR higher limit of the maximum configured power expressed in linear scale;

– p_{CMAX L _ E-UTRA,c} (p) is the E-UTRA lower limit of the maximum configured power expressed in linear scale;

– p_{CMAX L,f,c,NR} (q) is the NR lower limit of the maximum configured power expressed in linear scale;

– P_{PowerClass, EN-DC} is defined in clause 6.2B.1.3-1 for inter-band EN-DC; if the UE indicates [HigherPowerLimitCADC], P_{PowerClass,EN-DC} is replaced by the sum of the linear powers of P_{PowerClass,NR} and P_{PowerClass,E-UTRA} converted to dB;

– X_scale is the linear value of X dB which is configured by RRC and can only take values [0 , 6]

– p_{CMAX_ E-UTRA,c} (p) is the linear value of P_{CMAX_ E-UTRA,c} (p), the configured max power for E-UTRA. If more than one E-UTRA uplink serving cell is configured as intra-band UL CA in the E-UTRA CG, P_{CMAX_ E-UTRA,c} (p) will be replaced by P_CMAX(p) which is the configured maximum power for the entire E-UTRA CG.

– p_CMAX,f,c,NR (q) is the linear value of P_CMAX,f,c,NR (q), the configured max power of NR, If more than one NR uplink serving cell is configured as intra-band UL CA in the NR CG, P_{CMAX_ NR,c} (q) will be replaced by P_CMAX(q) which is the configured maximum power for the entire NR CG.

Table 6.2B.4.1.3-2: P_CMAX tolerance for Dual Connectivity E-UTRA-NR

PCMAX(dBm)	Tolerance TLOW (PCMAX_L) (dB)	Tolerance THIGH (PCMAX_H) (dB)
23 ≤ PCMAX ≤ 33	3.0	2.0
22 ≤ PCMAX < 23	5.0	2.0
21 ≤ PCMAX< 22	5.0	3.0
20 ≤ PCMAX < 21	6.0	4.0
16 ≤ PCMAX < 20	5.0
11 ≤ PCMAX < 16	6.0
-40 ≤ PCMAX < 11	7.0
NOTE 1: For UEs not indicating support of dynamic power sharing, the upper tolerance Thigh shall be reduced by 0.3 dB for P ≥ 20 dBm.

When E-UTRA and NR transmissions overlap and the condition (If (a=TRUE) AND (b=FALSE)) is met, SCG shall be transmitted and the following supplementary minimum requirement apply for the measured SCG power, P_UMAX,f,c,NR (q), under nominal conditions.

10log(p_{CMAX L,f,c,NR} (q)/X_scale) – T_LOW (10log(p_{CMAX L,f,c,NR} (q)/X_scale) )} ≤ P_UMAX,f,c,NR (q) ≤ 10log(p_{CMAX H, f,c,NR} (q)) + T_HIGH (10log(p_{CMAX H, f,c,NR} (q))).

with the tolerances T_LOW and T_HIGH for applicable values of P_CMAX specified in Table 6.2B.4.1.3-2.

6.2B.4.1.3a Inter-band NE-DC within FR1

For inter-band dual connectivity with one uplink serving cell per CG on E-UTRA and NR respectively, the UE is allowed to set its configured maximum output power P_CMAX,c(i),i for serving cell c(i) of CG i, i = 1,2, and its total configured maximum transmission power for NE-DC operation, = 10log10() with as specified in clause 7.6.1A of TS 38.213 [10].

The configured maximum output power P_{CMAX_ E-UTRA,c} (p) in sub-frame p for the configured E-UTRA uplink carrier shall be set within the bounds:

P_{CMAX_L_ E-UTRA,c} (p) ≤ P_{CMAX_ E-UTRA,c} (p) ≤ P_{CMAX H _ E-UTRA,c} (p)

where P_{CMAX_L_ E-UTRA,c} and P_{CMAX H _ E-UTRA,c} are the limits for a serving cell c as specified in TS 36.101 [4] clause 6.2.5 modified by P_LTE as follows:

P_{CMAX_L_ E-UTRA,c} = MIN { P_{EMAX, NE-DC} , (P_{PowerClass, NE-DC} – ΔP_{PowerClass,NE-DC} ), MIN(P_EMAX,c , P_LTE) – t_{C_ E-UTRA, c}, (P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}) – MAX(MPR_c + A-MPR_c + ΔT_IB,c + T_{C_ E-UTRA, c} + T_ProSe, P-MPR_c)}

P_{CMAX H _ E-UTRA,c} = MIN {P_EMAX,c, P_{EMAX, NE-DC} , (P_{PowerClass, NE-DC} – ΔP_{PowerClass,NE-DC} ), P_LTE, P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}}

with exception that

– if no symbol of slot of the NR that is indicated as uplink or flexible by TDD-UL-DL-ConfigurationCommon or TDD–UL-DL-ConfigDedicated overlaps with subframe of the E-UTRA; or

– if NR slot(s) that is indicated as downlink by TDD-UL-DL-ConfigurationCommon or TDD–UL-DL-ConfigDedicated does not overlap with subframe of the E-UTRA; then

P_{CMAX_L_ E-UTRA,c} = MIN { P_{EMAX, NE-DC} , (P_{PowerClass, NE-DC} – ΔP_{PowerClass,NE-DC} ), P_EMAX,c – t_{C_ E-UTRA, c}, (P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}) – MAX(MPR_c + A-MPR_c + ΔT_IB,c + T_{C_ E-UTRA, c} + T_ProSe, P-MPR_c)}

P_{CMAX H _ E-UTRA,c} = MIN {P_EMAX,c, P_{EMAX, NE-DC} , (P_{PowerClass, NE-DC} – ΔP_{PowerClass,NE-DC} ), P_{PowerClass,E-UTRA} – ΔP_{PowerClass,E-UTRA}}

The configured maximum output power P_CMAX,f,c,NR (q) in physical-channel q for the configured NR carrier shall be set within the bounds:

P_{CMAX_L,f,c,NR} (q) ≤ P_CMAX,f,c,NR (q) ≤ P_{CMAX_H,f,c,NR} (q)

where P_{CMAX_L,f,c,NR} and P_{CMAX_H,f,c,NR} are the limits for a serving cell c as specified in clause 6.2.4 of TS 38.101-1 [2] modified by P_NR as follows:

P_{CMAX_L,f,c,NR} = MIN { P_{EMAX, NE-DC} , (P_{PowerClass, NE-DC} – ΔP_{PowerClass,NE-DC} ), MIN(P_EMAX,c , P_NR ) – T_{C_NR, c}, (P_{PowerClass,NR} – ΔP_{PowerClass,NR}) – MAX(MPR_c + A-MPR_c+ ΔT_IB,c + T_{C_NR, c} + ∆T_RxSRS, P-MPR_c) }

P_{CMAX_H,f,c,NR} = MIN {P_EMAX,c, P_{EMAX, NE-DC} , (P_{PowerClass, NE-DC} – ΔP_{PowerClass,NE-DC} ), P_NR , P_{PowerClass,NR} – ΔP_{PowerClass,NR} }

– P_EMAX,NE-DC signalled by RRC as p-UE-FR1 in TS 38.331 [9];

– P_LTE signalled by RRC as p-MaxEUTRA in TS 36.331 [8];

– P_NR signalled by RRC as p-NR-FR1 defined in TS 38.331 [9];

– ΔT_{c_E-UTRA, c} = 1.5dB when NOTE 2 in Table 6.2.2-1 in TS 36.101 [4] applies for a serving cell c, otherwise T_{C_ E-UTRA,c} = 0dB;

– T_{C_NR,c} = 1.5dB when NOTE 3 in Table 6.2.1-1 in TS 38.101-1 [2] applies for a serving cell c, otherwise T_{C_NR,c} = 0dB;

– ΔT_IB,c specified in clause 6.2B.4.2.3 for NE-DC, the individual Power Class defined in table 6.2B.1.3a and any other additional power reductions parameters specified in clauses 6.2B.2.3a for NE-DC are applicable to P_{CMAX_ E-UTRA,c} and P_CMAX,f,c,NR evaluations.

– P_{PowerClass, NE-DC} is defined in clause 6.2B.1.3a for inter-band NE-DC;

– P_{PowerClass,NR} is the nominal UE power of the power class that the UE supports for the NR band of the NE-DC combination as defined in clause 6.2.1 of 38.101-1 [2]; in case IE [powerClassNRPart] as defined in TS 38.331 [9] is indicated, P_{PowerClass,NR} should use that value instead.

– P_{PowerClass,E-UTRA} is the nominal UE power of the power class that the UE supports for the E-UTRA band of the NE-DC combination as defined in clause 6.2.2 of 36.101 [4];

– ΔP_{PowerClass,NE-DC} = 3 dB for a power class 2 capable NE-DC UE when requirements of default power class had been applied as specified in sub-clause 6.2B.1; otherwise ΔP_{PowerClass,NE-DC} = 0 dB;

If the transmissions from NR and E-UTRA do not overlap, then the complete clauses for configured transmitted power for E-UTRA and NR respectively from their own specifications apply with the modifications specified above. The lower value between P_{PowerClass, NE-DC} or P_{EMAX, NE-DC} shall not be exceeded at any time by UE.

= 10log10() with the configured maximum transmission power for NE-DC operation as specified in clause 7.6 of TS 38.213 [10].

The total configured maximum transmission power for both synchronous and non-synchronous operation is

= MIN { P_{EMAX, NE-DC} ,P_{PowerClass, NE-DC} – ΔP_{PowerClass, NE-DC} }

If the UE does not support dynamic power sharing,

= MIN { P_{EMAX, NE-DC} ,P_{PowerClass, NE-DC} – ΔP_{PowerClass, NE-DC} } + 0.3 dB

If the NE-DC UE does not support dynamic power sharing, then the complete clauses for configured transmitted power for E-UTRA and NR respectively from their own specifications TS 36.101 [4] and TS 38.101-1 [2] respectively apply with the modifications specified above and applies.

When a UE supporting dynamic sharing is configured for overlapping E-UTRA uplink and NR uplink transmissions, the UE can set its configured maximum output power P_{CMAX_ E-UTRA,c} and P_CMAX,f,c,NR for the configured E-UTRA and NR uplink carriers, respectively, and its configured maximum transmission power for NE-DC operation, , as specified above.

The measured total maximum output power P_UMAX over both CGs/RATs, measured over the transmission reference time duration is

P_UMAX = 10 log₁₀ [p_{UMAX,c,E-UTRA} + p_UMAX,c,NR],

where p_{UMAX,c,E-UTRA} and p_UMAX,c,NR denotes the measured output power of serving cell c for E-UTRA and NR respectively, expressed in linear scale.

The measured total configured maximum output power P_UMAX shall be within the following bounds:

P_{CMAX_L} -T_LOW (P_{CMAX_L}) ≤ P_UMAX ≤ P_{CMAX_H} + T_HIGH (P_{CMAX_H})

with the tolerances T_LOW(P_{CMAX_L}) and T_HIGH(P_{CMAX_H}) for applicable values of P_CMAX specified in Table 6.2B.4.1.3a-2.

When an UL subframe transmission p from E-UTRA overlap with a physical-channel q from the NR, then for P_UMAX evaluation, the E-UTRA subframe p is taken as reference period T_REF and always considered as the reference measurement duration and the following rules are applicable.

T_REF and T_eval are specified in Table 6.2B.4.1.3a-1 when same or different subframe and physical-channel durations are used in aggregated carriers. P_{PowerClass ,NE-DC} shall not be exceeded by the UE during any evaluation period of time.

Table 6.2B.4.1.3a-1: P_CMAX evaluation window

transmission duration	TREF	Teval
Different transmission duration in different RAT carriers	LTE Subframe	Min(Tno_hopping, Physical Channel Length)

For each T_REF, the P_{CMAX_H} is evaluated per T_eval and given by the maximum value over the transmission(s) within the T_eval as follows:

P_{CMAX_H} = MAX { P_{CMAX_ NE-DC _H} (p,q) , P_{CMAX_ NE-DC _H} (p,q+1), … , P_{CMAX_ NE-DC _H} (p,q+n) }

where P_{CMAX_ NE-DC _H} are the applicable upper limits for each overlapping scheduling unit pairs (p,q) , (p, q+1) , up to (p, q+n) for each applicable T_eval duration, where q+n is the last NR UL physical-channel overlapping with LTE subframe p.

While P_{CMAX_L} is computed as follows:

P_{CMAX_L} = MIN { P_{CMAX_ NE-DC _L} (p,q) , P_{CMAX_ NE-DC _L} (p,q+1), … , P_{CMAX_ NE-DC _L} (p,q+n)}

where P_{CMAX_NE-DC_L} are the applicable lower limits for each overlapping scheduling unit pairs (p,q) , (p, q+1) , up to (p, q+n) for each applicable T_eval duration, where q+n is the last NR UL physical-channel overlapping with LTE subframe p,

With

P_{CMAX_ NE-DC _H}(p,q) = MIN {10 log₁₀ [p_{CMAX H _ E-UTRA,c} (p) + p_{CMAX H,f,c,NR} (q)], P_{EMAX, NE-DC} ,P_{PowerClass, NE-DC}}

And:

a = 10 log₁₀ [p_{CMAX_ E-UTRA,c} (p) +p_CMAX,f,c,NR (q) ] >

If a = TRUE

P_{CMAX_ NE-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) ], P_{EMAX, NE-DC} ,P_{PowerClass, NE-DC}}

Else

P_{CMAX_ NE-DC _L}(p,q) = MIN {10 log₁₀ [p_{CMAX L _ E-UTRA,c} (p) + p_{CMAX L,f,c,NR} (q)], P_{EMAX, NE-DC} ,P_{PowerClass, NE-DC}}

where

– p_{CMAX H _ E-UTRA,c} (p) is the E-UTRA higher limit of the maximum configured power expressed in linear scale;

– p_{CMAX H,f,c,NR} (q) is the NR higher limit of the maximum configured power expressed in linear scale;

– p_{CMAX L _ E-UTRA,c} (p) is the E-UTRA lower limit of the maximum configured power expressed in linear scale;

– p_{CMAX L,f,c,NR} (q) is the NR lower limit of the maximum configured power expressed in linear scale;

– P_{PowerClass, NE-DC} is defined in clause 6.2B.1.3a for inter-band NE-DC;

– p_{CMAX_ E-UTRA,c} (p) is the linear value of P_{CMAX_ E-UTRA,c} (p), the real configured max power for E-UTRA

– p_CMAX,f,c,NR (q) is the linear value of P_CMAX,f,c,NR (q), the real configured max power of NR

Table 6.2B.4.1.3a-2: P_CMAX tolerance for Dual Connectivity E-UTRA-NR

PCMAX(dBm)	Tolerance TLOW (PCMAX_L) (dB)	Tolerance THIGH (PCMAX_H) (dB)
23 ≤ PCMAX ≤ 33	3.0	2.0
22 ≤ PCMAX < 23	5.0	2.0
21 ≤ PCMAX< 22	5.0	3.0
20 ≤ PCMAX < 21	6.0	4.0
16 ≤ PCMAX < 20	5.0
11 ≤ PCMAX < 16	6.0
-40 ≤ PCMAX < 11	7.0
NOTE 1: For UEs not indicating support of dynamic power sharing, the upper tolerance Thigh shall be reduced by 0.3 dB for P ≥ 20 dBm.

When E-UTRA and NR transmissions overlap and the condition a = TRUE, P_UMAX,f,c,NR (q) for MCG, under nominal conditions, shall meet

P_UMAX,f,c,NR (q) ≤ 10log(p_{CMAX H, f,c,,NR c} (q)) + T_HIGH (10log(p_{CMAX H, f,c,,NR c} (q))).

with the tolerances T_LOW and T_HIGH for applicable values of P_CMAX specified in Table 6.2B.4a.1.3-2.

When LTE and NR transmissions overlap and the condition a = FALSE), then P_UMAX, under nominal conditions, shall be within the following bounds:

P_{CMAX_L} -T_LOW (P_{CMAX_L}) ≤ P_UMAX ≤ P_{CMAX_H} + T_HIGH (P_{CMAX_H})

where P_{CMAX_L}, P_{CMAX_H}, and P_UMAX are specified above with the tolerances T_LOW and T_HIGH specified in Table 6.2B.4a.1.3-2 for applicable values of P_{CMAX_L} and P_{CMAX_H}.

6.2B.4.1.4 Inter-band EN-DC including FR2

For inter-band dual connectivity with one uplink serving cell per CG on E-UTRA and NR respectively, with NR configured in FR2, the UE is allowed to set its configured maximum output power P_CMAX,c(i),i for serving cell c(i) of CG i, i = 1,2.

The UE maximum configured power P_CMAX,c(i), on E-UTRA for the subframe i shall be set according to clause 6.2.5 from TS 36.101 [4]. Applicable inter-band ΔT_IB,c parameters shall be used according to the clauses 6.2B.4.2.4 or 6.2B.4.2.5.

The UE maximum configured power P_CMAX,c(j), on NR for the slot j shall be set according to subclase 6.2.4 from TS 38.101-2 [3].

For the configured power measurements TS 36.101 [4] clause 6.2.5 and TS 38.101-2 [3] clause 6.2.4 are applicable.

6.2B.4.1.4a Inter-band NE-DC including FR2

For inter-band dual connectivity with one uplink serving cell per CG on E-UTRA and NR respectively, with NR configured in FR2, the UE is allowed to set its configured maximum output power P_CMAX,c(i),i for serving cell c(i) of CG i, i = 1,2.

The UE maximum configured power P_CMAX,c(i), on E-UTRA for the subframe i shall be set according to clause 6.2.5 from TS 36.101 [4]. Applicable inter-band ΔT_IB,c parameters shall be used according to the clauses 6.2B.4.2.4 or 6.2B.4.2.5.

The UE maximum configured power P_CMAX,c(j), on NR for the slot j shall be set according to subclase 6.2.4 from TS 38.101-2 [3].

For the configured power measurements TS 36.101 [4] clause 6.2.5 and TS 38.101-2 [3] clause 6.2.4 are applicable.

6.2B.4.1.5 Inter-band EN-DC including both FR1 and FR2

For inter-band dual connectivity with one uplink serving cell per CG on E-UTRA and NR respectively, with both CGs configured in FR1, the requirements specified in clause 6.2B.4.1.3 apply.

For inter-band dual connectivity with one uplink serving cell per CG on E-UTRA and NR respectively, with NR configured in FR2, the requirements specified in clause 6.2B.4.1.4 apply.

For inter-band dual connectivity with one uplink serving cell in first CG on E-UTRA and two uplink serving cells in second CG on NR FR1 and NR FR2 respectively, the UE is allowed to set its configured maximum output power P_CMAX,c(i),i for serving cell c(i) , i = 1,2,3 with i=1 for E-UTRA, i=2 for NR FR1 and i=3 for NR FR2.

– For serving cell on FR2, the requirements specified in clause 6.2.4 in TS 38.101-2 [3] apply to the UE maximum configured power P_CMAX,c(3),3 and the measured maximum configured power.

– For remaining inter-band dual connectivity involving CG1 and CG2, the requirements specified in clause 6.2B.4.1.3 apply.

6.2B.4.2 ΔT_IB,c for DC

6.2B.4.2.0 General

For the UE which supports inter-band EN-DC or NE-DC configuration, ΔT_IB,c in Tables below applies where unless otherwise stated, the same ΔT_IB,c is applicable to NR band(s) part for DC configurations which have the same NR operating band combination. Unless otherwise stated, ΔT_IB,c is set to zero.

Unless ΔT_IB,c is specified for the NE-DC configuration, the specified ΔT_IB,c for the EN-DC configuration including same bands as the corresponding NE-DC configuration is applicable for the NE-DC configuration.

6.2B.4.2.1 Intra-band contiguous EN-DC

ΔT_IB,c is not applicable for intra-band contiguous EN-DC.

6.2B.4.2.2 Intra-band non-contiguous EN-DC

ΔT_IB,c is not applicable for intra-band non-contiguous EN-DC.

6.2B.4.2.3 Inter-band EN-DC within FR1

6.2B.4.2.3.1 ΔT_IB,c for EN-DC two bands

Table 6.2B.4.2.3.1-1: ΔT_IB,c due to EN-DC(two bands)

Inter-band EN-DC configuration	E-UTRA or NR Band	ΔTIB,c (dB)
DC_1_n3	1	0.3
	n3	0.3
DC_1_n5	1	0.3
	n5	0.3
DC_1_n7,	1	0.5
DC_1-1_n7	n7	0.6
DC_1_n8	1	0.3
	n8	0.3
DC_1_n20	1	0.3
	n20	0.3
DC_1_n28	1	0.3
	n28	0.6
DC_1_n38	1	0.5
	n38	0.5
DC_1_n40	1	0.5
	n40	0.5
DC_1_n41	1	0.5
	n41	0.5
DC_1_n50	1	0.5
	n50	0.5
DC_1_n51	1	0.6
	n51	0.6
DC_1_n71	1	0.3
	n71	0.3
DC_1_n77	1	0.6
	n77	0.8
DC_1_n78	1	0.3
	n78	0.8
DC_2_n5	2	0.3
DC_2-2_n5	n5	0.3
DC_2_n7	2	0.5
	n7	0.5
DC_2_n12	2	0.3
	n12	0.3
DC_2_n28	2	0.3
	n28	0.3
DC_2_n30	2	0.5
DC_2-2_n30	n30	0.3
DC_2_n38,	2	0.5
DC_2-2_n38	n38	0.9
DC_2_n41,	2	0.5
DC_2-2_n41	n41	0.41
		0.92
DC_2_n48	2	0.6
	n48	0.8
DC_2_n66	2	0.5
DC_2-2_n66	n66	0.5
DC_2_n71,	2	0.3
DC_2-2_n71	n71	0.3
DC_2_n77 DC_2-2_n77	2	0.6
	n77	0.8
DC_2_n78,	2	0.6
DC_2-2_n78	n78	0.8
DC_3_n1	3	0.3
	n1	0.3
DC_3_n5	3	0.3
	n5	0.3
DC_3_n8,	3	0.3
DC_3-3_n8	n8	0.3
DC_3_n7,	3	0.5
DC_3-3_n7	n7	0.5
DC_3_n20	3	0.3
	n20	0.3
DC_3_n28	3	0.3
	n28	0.3
DC_3_n34	3	0.5
	n34	0.5
DC_3_n38	3	0.5
	n38	0.5
DC_3_n40	3	0.5
	n40	0.5
DC_3-n41	3	0.5
	n41	0.33
		0.84
DC_3_n50	3	0.5
	n50	0.5
DC_3_n51	3	0.3
	n51	0.3
DC_3_n71	3	0.3
	n71	0.3
DC_3_n77, DC_3-3_n77	3	0.6
	n77	0.8
DC_3_n78, DC_3-3_n78	3	0.6
	n78	0.8
DC_4_n2	4	0.5
	n2	0.5
DC_4_n5	4	0.3
	n5	0.3
DC_4_n7	4	0.5
	n7	0.5
DC_4_n28	4	0.3
	n28	0.6
DC_4_n38	4	0.5
	n38	0.8
DC_4_n41	4	0.5
	n41	0.81
		1.32
DC_4_n78	4	0.6
	n78	0.8
DC_5_n1	5	0.3
	n1	0.3
DC_5_n2, DC_5-5_n2	5	0.3
	n2	0.3
DC_5_n3	5	0.3
	n3	0.3
DC_5_n7	5	0.3
	n7	0.3
DC_5_n12	5	0.8
	n12	0.4
DC_5_n30	5	0.3
	n30	0.3
DC_5_n38	5	0.3
	n38	0.3
DC_5_n40	5	0.3
	n40	0.3
DC_5_n48	5	0.3
	n48	0.3
DC_5_n66, DC_5-5_n66	5	0.3
	n66	0.3
DC_5_n71	5	0.5
	n71	0.5
DC_5_n77	5	0.6
	n77	0.8
DC_5_n78	5	0.6
	n78	0.8
DC_7_n1, DC_7-7_n1	7	0.6
	n1	0.5
DC_7_n2	7	0.5
	n2	0.5
DC_7_n3	7	0.5
	n3	0.5
DC_7_n5,	7	0.3
DC_7-7_n5	n5	0.3
DC_7_n8,	7	0.3
DC_7-7_n8	n8	0.6
DC_7_n20	7	0.3
	n20	0.3
DC_7_n25	7	0.5
	n25	0.5
DC_7_n28	7	0.3
	n28	0.3
DC_7_n40	7	0.5
	n40	0.6
DC_7_n51	7	0.3
	n51	0.3
DC_7_n71	7	0.3
	n71	0.6
DC_7_n66, DC_7-7_n66	7	0.5
	n66	0.5
DC_7_n77, DC_7-7_n77	7	0.5
	n77	0.8
DC_7_n78, DC_7-7_n78	7	0.5
	n78	0.8
DC_7_n79	7	0.5
	n79	0.8
DC_8_n1	8	0.3
	n1	0.3
DC_8_n2	8	0.3
	n2	0.3
DC_8_n3	8	0.3
	n3	0.3
DC_8_n7	8	0.6
	n7	0.3
DC_8_n20	8	0.4
	n20	0.4
DC_8_n28	8	0.6
	n28	0.5
DC_8_n34	8	0.3
	n34	0.3
DC_8_n39	8	0.3
	n39	0.3
DC_8_n40	8	0.3
	n40	0.3
DC_8_n41	8	0.3
	n41	0.3
DC_8_n77	8	0.6
	n77	0.8
DC_8_n78	8	0.6
	n78	0.8
DC_11_n1	11	0.3
	n1	0.3
DC_11_n3	11	0.8
	n3	0.9
DC_11_n28	11	0.4
	n28	0.6
DC_11_n41	11	0.3
	n41	0.3
DC_11_n77	11	0.4
	n77	0.8
DC_11_n78	11	0.4
	n78	0.8
DC_12_n2	12	0.3
	n2	0.3
DC_12_n5	12	0.4
	n5	0.8
DC_12_n7	12	0.3
	n7	0.3
DC_12_n25	12	0.3
	n25	0.3
DC_12_n30	12	0.3
	n30	0.3
DC_12_n38	12	0.3
	n38	0.3
DC_12_n41	12	0.3
	n41	0.3
DC_12_n66	12	0.8
	n66	0.3
DC_12_n71	12	1
	n71	1
DC_12_n77	12	0.5
	n77	0.8
DC_12_n78	12	0.5
	n78	0.8
DC_13_n2	13	0.3
	n2	0.3
DC_13_n5	13	0.5
	n5	0.5
DC_13_n7	13	0.5
	n7	0.5
DC_13_n25	13	0.3
	n25	0.3
DC_13_n48	13	0.3
	n48	0.3
DC_13_n66	13	0.3
	n66	0.3
DC_13_n71	13	0.5
	n71	0.5
DC_13_n77	13	0.5
	n77	0.8
DC_13_n78	13	0.5
	n78	0.8
DC_14_n2	14	0.3
	n2	0.3
DC_14_n5	14	0.5
	n5	0.5
DC_14_n30	14	0.3
	n30	0.3
DC_14_n66	14	0.3
	n66	0.3
DC_14_n77	14	0.5
	n77	0.8
DC_18_n3	18	0.3
	n3	0.3
DC_18_n28	18	0.5
	n28	0.5
DC_18_n41	18	0.3
	n41	0.33
DC_18_n77	18	0.3
	n77	0.8
DC_18_n78	18	0.3
	n78	0.8
DC_19_n1	19	0.3
	n1	0.3
DC_19_n77	19	0.3
	n77	0.8
DC_19_n78	19	0.3
	n78	0.8
DC_20_n1	20	0.3
	n1	0.3
DC_20_n3	20	0.3
	n3	0.3
DC_20_n7	20	0.3
	n7	0.3
DC_20_n8	20	0.4
	n8	0.4
DC_20_n28	20	0.5
	n28	0.5
DC_20_n38	20	0.5
	n38	0.3
DC_20_n41	20	0.3
	n41	0.3
DC_20_n50	20	0.3
	n50	0.4
DC_20_n51	20	0.5
	n51	0.5
DC_20_n77	20	0.6
	n77	0.8
DC_20_n78	20	0.6
	n78	0.8
DC_21_n1	21	0.3
	n1	0.3
DC_21_n28	21	0.4
	n28	0.3
DC_21_n77	21	0.4
	n77	0.8
DC_21_n78	21	0.4
	n78	0.8
DC_25_n41, DC_25-25_n41	25	0.5
	n41	0.41
		0.92
DC_25_n77 DC_25-25_n77	25	0.6
	n77	0.8
DC_25_n78 DC_25-25_n78	25	0.6
	n78	0.8
DC_26_n25	26	0.3
	n25	0.3
DC_26_n41	26	0.3
	n41	0.3
DC_26_n77	26	0.3
	n77	0.8
DC_26_n78	26	0.3
	n78	0.8
DC_28_n1	n1	0.3
	28	0.6
DC_28_n2	28	0.3
	n2	0.3
DC_28_n3	28	0.3
	n3	0.3
DC_28_n5	28	0.5
	n5	0.5
DC_28_n7	28	0.3
	n7	0.3
DC_28_n8	28	0.5
	n8	0.6
DC_28_n40	28	0.3
	n40	0.3
DC_28_n41	28	0.3
	n41	0.3
DC_28_n50	28	0.3
	n50	0.4
DC_28_n51	28	0.5
	n51	0.5
DC_28_n66	28	0.6
	n66	0.3
DC_28_n77	28	0.5
	n77	0.8
DC_28_n78	28	0.5
	n78	0.8
DC_30_n2	30	0.3
	n2	0.5
DC_30_n5	30	0.3
	n5	0.3
DC_30_n66	30	0.5
	n66	0.8
DC_30_n77	30	0.5
	n77	0.8
DC_38_n1	38	0.5
	n1	0.5
DC_38_n3	38	0.5
	n3	0.5
DC_38_n8	38	0.6
	n8	0.3
DC_38_n28	38	0.3
	n28	0.3
DC_38_n78	n78	0.5
DC_38_n79	38	0.3
	n79	0.8
DC_39-n41	39	0.5
	n41	0.5
DC_39_n78	39	0.3
	n78	0.8
DC_39_n79	39	0.3
	n79	0.8
DC_40_n1	n1	0.5
	40	0.5
DC_40_n415	40	0.5
	n41	0.5
DC_40_n77	n77	0.5
DC_40_n78	n78	0.56
DC_40_n79	40	0.3
	n79	0.8
DC_41_n1	41	0.5
	n1	0.5
DC_41_n3	41	0.33
		0.84
	n3	0.5
DC_41_n28	41	0.3
	n28	0.3
DC_41_n77	41	0.3
	n77	0.8
DC_41_n78	41	0.3
	n78	0.8
DC_41_n79	41	0.3
	n79	0.8
DC_42_n1	42	0.8
	n1	0.3
DC_42_n3	42	0.8
	n3	0.6
DC_42_n28	42	0.5
	n28	0.8
DC_42_n51	42	0.6
	n51	0.8
DC_48_n2	48	0.8
	n2	0.6
DC_48_n5	48	0.3
	n5	0.3
DC_48_n12	48	0.3
	n12	0.3
DC_48_n25	48	0.8
	n25	0.6
DC_48_n46	48	0.8
DC_48_n66	48	0.8
	n66	0.6
DC_48_n71 DC_48-48_n71 DC_48-48-48_n71	48	0.3
	n71	0.3
DC_66_n2	66	0.5
DC_66-66_n2 DC_66-66-66_n2	n2	0.5
DC_66_n5, DC_66-66_n5, DC_66-66-66_n5	66	0.3
	n5	0.3
DC_66_n7,	66	0.5
DC_66-66_n7	n7	0.5
DC_66_n12	66	0.8
	n12	0.3
DC_66_n25	66	0.5
	n25	0.5
DC_66_n28	n28	0.6
	66	0.3
DC_66_n30	66	0.5
DC_66-66_n30	n30	0.8
DC_66_n38,	66	0.5
DC_66-66_n38	n38	0.5
DC_66_n41	66	0.5
	n41	0.81
		1.32
DC_66_n48, DC_66-66_n48	66	0.6
	n48	0.8
DC_66_n71,	66	0.3
DC_66-66_n71	n71	0.3
DC_66_n77 DC_66-66_n77 DC_66-66-66_n77	66	0.6
	n77	0.8
DC_66_n78,	66	0.6
DC_66-66_n78	n78	0.8
DC_71_n2	71	0.3
	n2	0.3
DC_71_n5	71	0.5
	n5	0.5
DC_71_n38	71	0.6
	n38	0.3
DC_71_n41	71	0.6
	n41	0.3
DC_71_n48	71	0.3
	n48	0.3
DC_71_n66	71	0.3
	n66	0.3
DC_71_n77	71	0.5
	n77	0.8
DC_71_n78	71	0.5
	n78	0.8
NOTE 1: The requirement is applied for UE transmitting on the frequency range of 2545-2690 MHz. NOTE 2: The requirement is applied for UE transmitting on the frequency range of 2496-2545 MHz. NOTE 3: Applicable for the frequency range of 2515 – 2690 MHz. NOTE 4: Applicable for the frequency range of 2496 – 2515 MHz. NOTE 5: Applicable for UE supporting inter-band EN-DC without simultaneous Rx/Tx. NOTE 6: Only applicable for UE supporting inter-band carrier aggregation with uplink in one E-UTRA band and without simultaneous Rx/Tx.

6.2B.4.2.3.2 ΔT_IB,c for EN-DC three bands

Table 6.2B.4.2.3.2-1: ΔT_IB,c due to EN-DC (three bands)

Inter-band EN-DC configuration	E-UTRA or NR Band	ΔTIB,c (dB)
DC_1-3_n3	1	0.3
DC_1_(n)3	3	0.3
	n3	0.3
DC_1-3_n5	1	0.3
	3	0.3
	n5	0.3
DC_1-3_n7	1	0.6
	3	0.6
	n7	0.6
DC_1-3_n8	1	0.3
	3	0.3
	n8	0.3
DC_1_n3-n8	1	0.3
	n3	0.3
	n8	0.3
DC_1-3_n28	1	0.3
	3	0.3
	n28	0.6
DC_1_n3-n28	1	0.3
	n3	0.3
	n28	0.6
DC_1-3_n38	1	0.5
	3	0.5
	n38	0.5
DC_1-3_n40	1	0.5
	3	0.5
	n40	0.5
DC_1-3_n41 DC_1-41_n3 DC_1_n3-n41	1	0.5
	3 or n3	0.5
	n41 or 41	0.33/0.84
DC_1_n3-n75	1	0.5
	n3	0.5
DC_1-3_n77	1	0.6
	3	0.6
	n77	0.8
DC_1_n3-n77	1	0.6
	n3	0.6
	n77	0.8
DC_1-3_n71	1	0.3
	3	0.3
	n71	0.3
DC_1-3_n78	1	0.6
	3	0.6
	n78	0.8
DC_1-3_n79	1	0.3
	3	0.3
DC_1_n3-n78	1	0.6
	n3	0.6
	n78	0.8
DC_1_n3-n79	1	0.3
	n3	0.3
	n79	0.8
DC_1-5_n77	1	0.3
	5	0.6
	n77	0.8
DC_1-5_n78	1	0.3
	5	0.6
	n78	0.8
DC_1-5_n79	1	0.3
	5	0.3
DC_1-7_n3	1	0.6
	7	0.6
	n3	0.6
DC_1-7_n5	1	0.5
	7	0.6
	n5	0.3
DC_1-7_n7	1	0.5
	7	0.6
	n7	0.6
DC_1-7_n8	1	0.5
	7	0.6
	n8	0.6
DC_1-7_n28	1	0.5
	7	0.6
	n28	0.6
DC_1-7_n38	1	0.5
DC_1-7_n40	1	0.6
	7	0.8
	n40	0.9
DC_1-7_n77	1	0.6
	7	0.6
	n77	0.8
DC_1-7_n78 DC_1-7-7_n78	1	0.6
	7	0.6
	n78	0.8
DC_1_n7-n78	1	0.6
	n7	0.6
	n78	0.8
DC_1-8_n3	1	0.3
	8	0.3
	n3	0.3
DC_1-8_n28	1	0.3
	8	0.6
	n28	0.6
DC_1_n8-n40	1	0.3
	n8	0.3
	n40	0.5
DC_1-8_n77	1	0.3
	8	0.6
	n77	0.8
DC_1_n8-n77	B1	0.3
	n8	0.6
	n77	0.8
DC_1-8_n78 DC_1_n8-n78	1	0.3
	8	0.6
	n78	0.8
DC_1-8_n79	1	0.3
	8	0.3
DC_1-11_n3	1	0.3
	11	0.8
	n3	0.9
DC_1-11_n28	1	0.3
	11	0.4
	n28	0.6
DC_1-11_n41	1	0.5
	11	0.3
	n41	0.5
DC_1-11_n77	1	0.6
	11	0.4
	n77	0.8
DC_1-11_n78	1	0.3
	11	0.4
	n78	0.8
DC_1-11_n79	1	0.3
	11	0.3
DC_1-18_n3	1	0.3
	18	0.3
	n3	0.3
DC_1-18_n28	1	0.3
	18	0.5
	n28	0.5
DC_1-18_n41	1	0.5
	18	0.3
	n41	0.5
DC_1-18_n77	1	0.3
	18	0.3
	n77	0.8
DC_1-18_n78	1	0.3
	18	0.3
	n78	0.8
DC_1-19_n77	1	0.3
	19	0.3
	n77	0.8
DC_1-19_n78	1	0.3
	19	0.3
	n78	0.8
DC_1-19_n79	1	0.3
	19	0.3
DC_1-20_n3	1	0.3
	20	0.3
	n3	0.3
DC_1-20_n7	1	0.5
	20	0.3
	n7	0.6
DC_1-20_n8	1	0.3
	20	0.4
	n8	0.4
DC_1-20_n28	1	0.5
	20	0.6
	n28	0.6
DC_1-20_n38	1	0.5
	20	0.3
	n38	0.5
DC_1-20_n41	1	0.5
	20	0.3
	n41	0.51
		1.22
DC_1-20_n78	1	0.3
	20	0.3
	n78	0.8
DC_1-21_n28	1	0.3
	21	0.4
	n28	0.6
DC_1-21_n77	1	0.3
	21	0.3
	n77	0.8
DC_1-21_n78	1	0.6
	21	0.4
	n78	0.8
DC_1-21_n79	1	0.3
	21	0.3
DC_1-28_n3	1	0.3
	28	0.6
	n3	0.3
DC_1-28_n5	1	0.3
	28	0.5
	n5	0.5
DC_1-28_n7	1	0.5
	28	0.6
	n7	0.6
DC_1_n28-n75	1	0.3
	n28	0.7
DC_1-28_n77	1	0.3
	28	0.6
	n77	0.8
DC_1-28_n78 DC_1_n28-n78	1	0.3
	28 or n28	0.6
	n78	0.8
DC_1_n28-n79	1	0.3
	n28	0.6
DC_1_n28-n40	1	0.6
	n28	0.3
	n40	0.5
DC_1_n28-n77	1	0.6
	n28	0.6
	n77	0.8
DC_1-28_n40	1	0.6
	28	0.3
	n40	0.5
DC_1-32_n3	1	0.5
	n3	0.5
DC_1-32_n8	1	0.5
	n8	0.3
DC_1-32_n28	1	0.3
	n28	0.7
DC_1-32_n78	1	0.5
	n78	0.8
DC_1-38_n3	1	0.5
	38	0.5
	n3	0.5
DC_1-38_n7	1	0.5
DC_1-38_n8	1	0.5
	38	0.5
	n8	0.3
DC_1-38_n28	1	0.5
	38	0.5
	n28	0.6
DC_1-(n)38	1	0.5
	38	0.5
	n38	0.5
DC_1-38_n78	1	0.5
	38	0.5
	n78	0.8
DC_1_n38-n78	1	0.5
	n38	0.5
	n78	0.8
DC_1-40_n78	1	0.6
	40	0.35
	n78	0.85
DC_1_n40-n78	1	0.3
	n40	0.5
	n78	0.8
DC_1-41_n3	1	0.5
	41	0.33/0.84
	n3	0.5
DC_1-41_n28	1	0.5
	41	0.5
	n28	0.5
DC_1-(n)41	1	0.5
	41	0.5
	n41	0.5
DC_1-41_n41	1	0.5
	41	0.5
	n41	0.5
DC_1-41_n77 DC_1_n41-n77	1	0.5
	41	0.5
	n77	0.8
DC_1-41_n78 DC_1_n41-n78	1	0.5
	41 or n41	0.5
	n78	0.8
DC_1-41_n79	1	0.5
	41	0.5
DC_1-42_n3	1	0.3
	42	0.8
	n3	0.6
DC_1-42_n28	1	0.3
	42	0.8
	n28	0.8
DC_1-42_n77	1	0.6
	42	0.8
	n77	0.8
DC_1-42_n78	1	0.3
	42	0.8
	n78	0.8
DC_1-42_n79	1	0.3
	42	0.8
DC_1_n77-n79	1	0.6
	n77	0.8
DC_1_SUL_n77-n80	1	0.6
	n77	0.8
	n80	0.6
DC_1_SUL_n77-n84	1	0.6
	n77	0.8
	n84	0.6
DC_1_SUL_n78-n84	1	0.3
	n78	0.8
	n84	0.3
DC_1_n78-n79	1	0.3
	n78	0.8
	n79	0.5
DC_1_n75-n78	1	0.5
	n78	0.8
DC_1_SUL_n78-n80	1	0.6
	n80	0.6
	n78	0.8
DC_2_n2-n38	2	0.5
	n2	0.5
	n38	0.9
DC_2_n2-n41	2	0.5
	n2	0.5
	n41	0.5
DC_2_n2-n66	2	0.5
	n2	0.5
	n66	0.5
DC_2_n2-n71	2	0.3
	n2	0.3
	n71	0.3
DC_2_n2-n77	2	0.6
	n2	0.6
	n77	0.8
DC_2_n2-n78	2	0.6
	n2	0.6
	n78	0.8
DC_2-4_n28	2	0.5
	4	0.5
	n28	0.8
DC_2-4_n38	2	0.5
	4	0.5
	n38	0.5
DC_2-4_n41	2	0.5
	4	0.5
	n41	0.5
DC_2-5_n2 DC_2-5-5_n2	2	0.3
	5	0.3
	n2	0.3
DC_2-5_n5 DC_2-2-5_n5	2	0.3
	5	0.3
	n5	0.3
DC_2-(n)5 DC_2-2-(n)5	2	0.3
	5	0.3
	n5	0.3
DC_2-5_n7	2	0.5
	5	0.3
	n7	0.5
DC_2-5_n12	2	0.3
	5	0.8
	n12	0.4
DC_2-5_n30 DC_2-2-5_n30	2	0.5
	5	0.3
	n30	0.3
DC_2-5_n48	2	0.6
	5	0.3
	n48	0.8
DC_2-5_n66 DC_2-5-5_n66	2	0.5
	5	0.3
	n66	0.5
DC_2-5_n71	2	0.3
	5	0.5
	n71	0.5
DC_2-5_n77	2	0.6
DC_2-2-5_n77	5	0.6
	n77	0.8
DC_2-5_n78	2	0.6
	5	0.6
	n78	0.8
DC_2-7_n5 DC_2-7-7_n5	2	0.3
	7	0.3
	n5	0.3
DC_2-7_n7	2	0.5
	7	0.5
	n7	0.5
DC_2-7_n25 DC_2-7-7_n25	2	0.5
	7	0.5
	n25	0.5
DC_2-7_n28	2	0.5
	7	0.5
	n28	0.3
DC_2_n5-n77	2	0.6
	n5	0.3
	n77	0.8
DC_2-7_n38 DC_2-2-7_n38	2	0.5
DC_2-7_n71	2	0.5
	7	0.5
	n71	0.6
DC_2-7_n66 DC_2-7-7_n66 DC_2_n7-n66	2	0.5
	7	0.5
	n66	0.5
DC_2-7_n77 DC_2-7-7_n77	2	0.6
	7	0.5
	n77	0.8
DC_2-7_n78 DC_2-2-7_n78	2	0.5
	7	0.5
DC_2_n7-n78	2	0.6
	n7	0.5
	n78	0.8
DC_2-8_n2	2	0.3
	8	0.3
	n2	0.3
DC_2-12_n2	2	0.3
	12	0.3
DC_2-12_n5 DC_2-2-12_n5	2	0.3
	12	0.4
	n5	0.8
DC_2-12_n7	2	0.5
	12	0.3
	n7	0.5
DC_2_(n)12	2	0.3
	12	0.3
	n12	0.3
DC_2-12_n30 DC_2-2-12_n30	2	0.5
	12	0.3
	n30	0.3
DC_2-12_n41 DC_2-2-12_n41	2	0.5
	12	0.3
	n41	0.5
DC_2-12_n66, DC_2-2-12_n66	2	0.5
	12	0.8
	n66	0.5
DC_2-12_n77 DC_2-2-12_n77	2	0.6
	12	0.3
	n77	0.8
DC_2-12_n78	2	0.6
	12	0.6
	n78	0.8
DC_2_n38-n66	2	0.5
	n38	0.9
	n66	0.5
DC_2-13_n2	2	0.3
	13	0.3
	n2	0.3
DC_2-13_n5 DC_2-2-13_n5	2	0.3
	13	0.5
	n5	0.5
DC_2-13_n25	2	0.3
	13	0.3
	n25	0.3
DC_2-13_n48	2	0.6
	13	0.3
	n48	0.8
DC_2-13_n66 DC_2-2-13_n66	2	0.5
	13	0.3
	n66	0.5
DC_2-13_n77	2	0.6
DC_2-2-13_n77	13	0.5
	n77	0.8
DC_2-14_n2	2	0.3
	14	0.3
	n2	0.3
DC_2-14_n5 DC_2-2-14_n5	2	0.3
	14	0.4
	n5	0.8
DC_2-14_n30 DC_2-2-14_n30	2	0.5
	14	0.3
	n30	0.5
DC_2-14_n66 DC_2-2-14_n66	2	0.5
	14	0.3
	n66	0.5
DC_2-14_n77 DC_2-2-14_n77	2	0.5
	14	0.3
	n77	0.8
DC_2_n25-n66	2	0.5
	n25	0.5
	n66	0.5
DC_2-28_n7	2	0.5
	28	0.3
	n7	0.5
DC_2-28_n66	2	0.5
	28	0.6
	n66	0.5
DC_2-28_n78	2	0.6
	28	0.5
	n78	0.8
DC_2-29_n30 DC_2-2-29_n30	2	0.5
	n30	0.3
DC_2-29_n66 DC_2-2-29_n66	2	0.5
	n66	0.5
DC_2-29_n77	2	0.6
DC_2-2-29_n77	n77	0.8
DC_2-29-n78	2	0.6
	n78	0.8
DC_2-30_n2	2	0.5
	30	0.3
	n2	0.5
DC_2-30_n5, DC_2-2-30_n5	2	0.5
	30	0.3
	n5	0.3
DC_2-30_n66, DC_2-2-30_n66	2	0.5
	30	0.3
	n66	0.5
DC_2-30_n77	2	0.6
DC_2-2-30_n77	30	0.3
	n77	0.8
DC_2_n38-n71	2	0.5
	n38	0.5
	n71	0.3
DC_2-38_n78	2	0.6
	38	0.9
	n78	0.8
DC_2_n38-n78	2	0.6
	n38	0.9
	n78	0.8
DC_2_n41-n66	2	0.5
	n41	0.5
	n66	0.5
DC_2_n41-n71	2	0.5
	n41	0.5
	n71	0.3
DC_2_n41-n66	2	0.5
	n41	0.5
	n66	0.5
DC_2_n41-n71	2	0.5
	n41	0.5
	n71	0.3
DC_2-46_n5	2	0.3
DC_2-2-46_n5	n5	0.3
DC_2-46_n41	2	0.5
	n41	0.41
		0.92
DC_2-46_n66	2	0.5
	n66	0.5
DC_2-46_n77	2	0.6
DC_2-46-46_n77	n77	0.8
DC_2-48_n2	2	0.6
	48	0.8
	n2	0.6
DC_2-48_n5	2	0.6
	48	0.8
	n5	0.3
DC_2-48_n12	2	0.6
	48	0.3
	n12	0.8
DC_2-48_n48	2	0.6
	48	0.8
	n48	0.8
DC_2-48_n66	2	0.6
	48	0.8
	n66	0.6
DC_2-48_n71	2	0.6
	48	0.8
	n71	0.3
DC_2-48_n77 DC_2-48-48_n77 DC_2-48-48-48_n77	2	0.3
	48	0.6
	n77	0.5
DC_2-66_n2	2	0.5
DC_2-66-66_n2	66	0.5
	n2	0.5
DC_2-66_n5, DC_2-2-66_n5, DC_2-66-66_n5, DC_2-2-66-66_n5, DC_2-66-66-66_n5	2	0.5
	66	0.5
	n5	0.3
DC_2-66-n7	2	0.5
	66	0.5
	n7	0.5
DC_2-66_n12	2	0.5
	66	0.5
	n12	0.8
DC_2-66_n25	2	0.5
	66	0.5
	n25	0.5
DC_2-66-n28	2	0.5
	66	0.5
	n28	0.6
DC_2-66_n30 DC_2-2-66_n30 DC_2-66-66_n30 DC_2-2-66-66_n30	2	0.5
	66	0.5
	n30	0.3
DC_2-66_n38 DC_2-2-66_n38 DC_2-66-66_n38	2	0.5
	66	0.5
	n38	0.9
DC_2-66_n41	2	0.5
	66	0.5
	n41	0.81
		1.32
DC_2-66_n48 DC_2-66-66_n48	2	0.6
	66	0.6
	n48	0.8
DC_2-66_n66	2	0.5
DC_2-2-66-66_n66	66	0.5
	n66	0.5
DC_2_(n)66	2	0.5
	66	0.5
	n66	0.5
DC_2-66_n71 DC_2_n66-n71	2	0.5
	66	0.5
	n71	0.3
DC_2-66_n77	2	0.6
DC_2-2-66_n77 DC_2-66-66_n77 DC_2-2-66-66_n77	66	0.6
	n77	0.8
DC_2_n66-n77 DC_2-2_n66-n77	2	0.6
	66	0.6
	n77	0.8
DC_2-66_n78 DC_2-66-66_n78 DC_2_n66-n78	2	0.6
	66	0.6
	n78	0.8
DC_2-71_n38 DC_2-2-71_n38	2	0.5
	71	0.3
	n38	0.5
DC_2-71_n41 DC_2-2-71_n41	2	0.5
	71	0.3
	n41	0.5
DC_2-71_n66 DC_2-2-71_n66	2	0,5
	71	0.3
	n66	0.5
DC_2-71_n71	2	0.3
	71	0.3
	n71	0.3
DC_2-(n)71	2	0.3
	71	0.3
	n71
DC_2-71_n78 DC_2-2-71_n78 DC_2_n71-n78	2	0.6
	71/n71	0.6
	n78	0.8
DC_3_n1-n7	3	0.6
	n1	0.6
	n7	0.6
DC_3_n1-n8	3	0.3
DC_3-3_n1-n8	n1	0.3
	n8	0.3
DC_3_n1-n28	3	0.3
	n1	0.3
	n28	0.6
DC_3_n1-n38	3	0.5
	n1	0.5
	n38	0.5
DC_3_n1-n40	3	0.5
	n1	0.5
	n40	0.5
DC_3_n1-n41	3	0.5
	n1	0.5
	n41	0.5
DC_3_n1-n77	3	0.6
	n1	0.6
	n77	0.8
DC_3_n1-n78	3	0.6
	n1	0.6
	n78	0.8
DC_3_n1-n79	3	0.3
	n1	0.3
	n79	0.0
DC_3_n3-n41	3	0.5
	n3	0.5
	n41	0.33/0.84
DC_3_n3-n77	3	0.6
	n3	0.6
	n77	0.8
DC_3_n3-n78	3	0.6
	n3	0.6
	n78	0.8
DC_3_n5-n40	3	0.5
	n5	0.3
	n40	0.5
DC_3-5_n77	3	0.6
	5	0.6
	n77	0.8
DC_3-5_n78	3	0.6
	5	0.6
	n78	0.8
DC_3-5_n79	3	0.3
	5	0.3
DC_3-7_n1, DC_3-3-7_n1, DC_3-7-7_n1, DC_3-3-7-7_n1	3	0.3
	7	0.6
	n1	0.5
DC_3-7_n3	3	0.5
	7	0.5
	n3	0.5
DC_3-7_n5	3	0.5
	7	0.5
	n5	0.3
DC_3-7_n7	3	0.5
	7	0.5
	n7	0.5
DC_3-7_n8 DC_3-3-7_n8 DC_3-7-7_n8 DC_3-3-7-7_n8	3	0.5
	7	0.5
	n8	0.6
DC_3-7_n28 DC_3_n7-n28	3	0.5
	7 or n7	0.5
	n28	0.3
DC_3-7_n38	3	0.5
DC_3-7_n40	3	0.6
	7	0.8
	n40	0.9
DC_3-7_n77 DC_3-3-7_n77 DC_3-7-7_n77 DC_3-3-7-7_n77	3	0.6
	7	0.6
	n77	0.8
DC_3-7_n78, DC_3-7-7_n78, DC_3-3-7_n78, DC_3-3-7-7_n78	3	0.6
	7	0.6
	n78	0.8
DC_3_n7-n78	3	0.6
	n7	0.6
	n78	0.8
DC_3-8_n1 DC_3-3-8_n1	3	0.3
	8	0.3
	n1	0.3
DC_3_n8-n40 DC_3-8_n40	3	0.5
	8 or n8	0.3
	n40	0.5
DC_3-8_n28	3	0.3
	8	0.6
	n28	0.5
DC_3-8_n77	3	0.6
	8	0.6
	n77	0.8
DC_3-8_n78 DC_3-3-8_n78 DC_3_n8-n78	3	0.6
DC_3-3_n8-n78	8 or n8	0.6
	n78	0.8
DC_3-8_n79	3	0.3
	8	0.3
DC_3-11_n28	3	0.8
	11	0.9
	n28	0.6
DC_3-11_n77	3	0.8
	11	0.9
	n77	0.8
DC_3-18_n3	3	0.3
	18	0.3
	n3	0.3
DC_3-18_n28	3	0.3
	18	0.5
	n28	0.3
DC_3-18_n41	3	0.6
	18	0.3
	n41	0.33
		0.84
DC_3-18_n77	3	0.6
	18	0.3
	n77	0.8
DC_3-18_n78	3	0.6
	18	0.3
	n78	0.8
DC_3-18_n79	3	0.3
	18	0.3
DC_3-19_n1	3	0.3
	19	0.3
	n1	0.3
DC_3-19_n77	3	0.6
	19	0.3
	n77	0.8
DC_3-19_n78	3	0.6
	19	0.3
	n78	0.8
DC_3-19_n79	3	0.3
	19	0.3
DC_3-20_n1	3	0.3
	20	0.3
	n1	0.3
DC_3-20_n7	3	0.5
	20	0.3
	n7	0.5
DC_3-20_n8	3	0.3
	20	0.4
	n8	0.4
DC_3-20_n28	3	0.3
	20	0.5
	n28	0.5
DC_3-20_n38	3	0.5
	20	0.3
	n38	0.5
DC_3-20_n41	3	0.5
	20	0.3
	n41	0.53
		1.24
DC_3_n20-n67	3	0.3
	n20	0.5
	n67	0.5
DC_3-20_n78	3	0.5
	20	0.3
	n78	0.8
DC_3_n20-n78	3	0.5
	n20	0.3
	n78	0.8
DC_3-21_n1	3	0.8
	21	0.9
	n1	0.3
DC_3-21_n28	3	0.8
	21	0.9
	n28	0.3
DC_3-21_n77	3	0.8
	21	0.9
	n77	0.8
DC_3-21_n78	3	0.8
	21	0.9
	n78	0.8
DC_3-21_n79	3	0.8
	21	0.9
DC_3-28_n1	3	0.3
	28	0.6
	n1	0.3
DC_3-28_n3	3	0.3
	28	0.3
	n3	0.3
DC_3-28_n5	3	0.3
	28	0.5
	n5	0.5
DC_3-28_n7	3	0.5
	28	0.3
	n7	0.5
DC_3_n28-n40	3	0.5
	n28	0.3
	n40	0.5
DC_3-28_n40	3	0.5
	28	0.3
	n40	0.5
DC_3-28_n41	3	0.5
	28	0.5
	n41	0.33/0.84
DC_3_n28-n75	3	0.3
	n28	0.3
DC_3-28_n77 DC_3_n28-n77	3	0.6
	28 or n28	0.5
	n77	0.8
DC_3-28_n78	3	0.5
	28	0.3
	n78	0.8
DC_3_n28-n78	3	0.5
	n28	0.3
	n78	0.8
DC_3_n28-n79	3	0.3
	n28	0.3
DC_3-32_n1	3	0.5
	n1	0.5
DC_3-32_n28	3	0.3
	n28	0.3
DC_3-32_n78	3	0.6
	n78	0.8
DC_3-38_n7	3	0.5
DC_3-38_n28	3	0.5
	38	0.5
	n28	0.6
DC_3-38_n78	3	0.6
	38	0.5
	n78	0.8
DC_3_n38-n78	3	0.6
	n38	0.5
	n78	0.8
DC_3-40_n1	3	0.5
	40	0.5
	n1	0.5
DC_3_n40-n41	3	0.5
	n40	0.5
	n41	0.53
		0.84
DC_3-40_n78	3	0.6
	40	0.35
	n78	0.85
DC_3_n40-n78	3	0.6
	n40	0.5
	n78	0.8
DC_3_n40-n79	3	0.5
	n40	0.5
DC_3-41_n3	3	0.5
	41	0.33/0.84
	n3	0.5
DC_3-41_n28	3	0.5
	41	0.33/0.84
	n28	0.3
DC_3-(n)41	3	0.5
	41	0.33
		0.84
	n41	0.33
		0.84
DC_3-41_n41	3	0.5
	41	0.33
		0.84
	n41	0.33
		0.84
DC_3-41_n77 DC_3_n41-n77	3	0.6
	41	0.33
		0.84
	n77	0.8
DC_3-41_n78 DC_3_n41-n78	3	0.6
	41 or n41	0.33
		0.84
	n78	0.8
DC_3-41_n79 DC_3_n41-n79	3	0.6
	41 or n41	0.33
		0.84
DC_3_SUL_n41-n80	3	0.5
	n41	0.33
		0.84
	n80	0.5
DC_3-42_n1	3	0.6
	42	0.8
	n1	0.6
DC_3-42_n28	3	0.6
	42	0.8
	n28	0.8
DC_3-42_n77	3	0.6
	42	0.8
	n77	0.8
DC_3-42_n78	3	0.6
	42	0.8
	n78	0.8
DC_3-42_n79	3	0.6
	42	0.8
DC_3_n75-n78	3	0.6
	n78	0.8
DC_3_n77-n79	3	0.6
	n77	0.8
DC_3_SUL_n77-n80	3	0.6
	n77	0.8
	n80	0.6
DC_3_SUL_n77-n84	3	0.6
	n77	0.8
	n84	0.6
DC_3_n78-n79	3	0.6
	n78	0.8
	n79	0.5
DC_3_SUL_n78-n80	3	0.6
	n78	0.8
	n80	0.6
DC_3_SUL_n78-n82	3	0.5
	n78	0.8
	n82	0.3
DC_3_SUL_n78-n84	3	0.6
	n78	0.8
	n84	0.6
DC_4-7_n28	4	0.5
	7	0.5
	n28	0.6
DC_5_n1-n78	5	0.6
	n1	0.6
	n78	0.8
DC_5_n2-n77	5	0.6
	n2	0.6
	n77	0.8
DC_5_n2-n78	5	0.6
	n2	0.6
	n78	0.8
DC_5_n3-n78	5	0.6
	n3	0.6
	n78	0.8
DC_5_n5-n77	5	0.6
	n5	0.6
	n77	0.8
DC_5-7_n7	5	0.5
	7	0.3
	n7	0.3
DC_5-7_n66	5	0.3
	7	0.5
	n66	0.5
DC_5-7_n71	5	0.5
	7	0.3
	n71	0.6
DC_5-7_n77	5	0.6
	7	0.6
	n77	0.8
DC_5-7_n78, DC_5-7-7_n78, DC_5_n7-n78	5	0.6
	7 or n7	0.6
	n78	0.8
DC_5_(n)12	5	0.8
	12	0.4
	n12	0.4
DC_5-13_n2	5	0.5
	13	0.5
	n2	0.3
DC_5-13_n66	5	0.3
	13	0.3
	n66	0.3
DC_5-13_n77	5	0.6
	13	0.5
	n77	0.8
DC_5-30_n2	5	0.3
	30	0.3
	n2	0.5
DC_5-30_n66	5	0.3
	30	0.3
	n66	0.5
DC_5-30_n77	5	0.6
	30	0.3
	n77	0.8
DC_5_n38-n66	5	0.5
	n38	0.8
	n66	0.5
DC_5-41_n79	5	0.3
	41	0.3
DC_5-46_n66	5	0.3
	n66	0.3
DC_5-48_n12	5	0.8
	48	0.3
	n12	0.4
DC_5-48_n71	5	0.5
	48	0.3
	n71	0.5
DC_5-48_n77	5	0.6
	48	0.8
	n77	0.8
DC_5-66_n2 DC_5-5-66_n2 DC_5-66-66_n2 DC_5-5-66-66_n2	5	0.3
	66	0.5
	n2	0.5
DC_5-66_n5 DC_5-66-66_n5	5	0.3
	66	0.3
	n5	0.3
DC_5-66-n7	5	0.3
	66	0.5
	n7	0.5
DC_5-66_n12	5	0.3
	66	0.8
	n12	0.8
DC_5-66_n30 DC_5-66-66_n30	5	0.3
	66	0.5
	n30	0.3
DC_5-66_n48 DC_5-66-66_n48	5	0.3
	66	0.6
	n48	0.8
DC_5-66_n66 DC_5-5-66_n66 DC_5-66-66_n66 DC_5-5-66-66_n66	5	0.3
	66	0.3
	n66	0.3
DC_5-66_n71	5	0.5
	66	0.3
	n71	0.5
DC_5-66_n77	5	0.6
DC_5_n66-n77	66 or n66	0.6
DC_5-66-66_n77	n77	0.8
DC_5-66_n78	5	0.6
DC_5_n66-n78	66/n66	0.6
	n78	0.8
DC_5-66_n66	5	0.3
	66	0.3
	n66	0.3
DC_7_n1-n8	7	0.6
DC_7-7_n1-n8	n1	0.5
	n8	0.5
DC_7_n1-n40	n1	0.6
	7	0.8
	n40	0.9
DC_7_n1-n78	7	0.6
	n1	0.6
	n78	0.8
DC_7_n2-n66	7	0.5
	n2	0.5
	n66	0.5
DC_7_n2-n71	7	0.5
	n2	0.5
	n71	0.3
DC_7_n2-n78	7	0.5
	n2	0.6
	n78	0.8
DC_7_n3-n78	7	0.6
	n3	0.6
	n78	0.8
DC_7_n7-n78	7	0.5
	n7	0.5
	n78	0.8
DC_7-8_n1 DC_7-7-8_n1	7	0.6
	8	0.6
	n1	0.5
DC_7-8_n3	7	0.5
	8	0.6
	n3	0.5
DC_7-8_n28	7	0.3
	8	0.6
	n28	0.5
DC_7_n8-n40 DC_7-8_n40	7	0.5
	8 or n8	0.6
	n40	0.6
DC_7-8_n77	7	0.5
	8	0.6
	n77	0.8
DC_7-8_n78 DC_7-7-8_n78 DC_7_n8-n78	7	0.5
DC_7-7_n8-n78	8 or n8	0.6
	n78	0.8
DC_7-12_n66	7	0.5
	12	0.5
	n66	0.5
DC_7-12_n78	7	0.5
	12	0.5
	n78	0.8
DC_7-13_n25 DC_7-7-13_n25	7	0.5
	13	0.3
	n25	0.5
DC_7-13_n66	7	0.5
	13	0.3
	n66	0.5
DC_7-20_n1	7	0.6
	20	0.3
	n1	0.5
DC_7-20_n3	7	0.5
	20	0.3
	n3	0.5
DC_7-20_n8	7	0.3
	20	0.4
	n8	0.4
DC_7-20_n28	7	0.3
	20	0.6
	n28	0.6
DC_7-20_n38	20	0.3
DC_7-20_n78	7	0.3
	20	0.3
	n78	0.8
DC_7-25_n77 DC_7-7-25_n77 DC_7-25-25_n77 DC_7-7-25-25_n77	7	0.5
	25	0.6
	n77	0.8
DC_7-25_n78 DC_7-7-25_n78 DC_7-25-25_n78 DC_7-7-25-25_n78	7	0.5
	25	0.6
	n78	0.8
DC_7_n25-n66	7	0.5
DC_7-7_n25-n66	n25	0.5
	n66	0.5
DC_7-28_n1	7	0.6
DC_7-7-28_n1	28	0.6
	n1	0.5
DC_7-28_n2	7	0.5
	28	0.3
	n2	0.5
DC_7-28_n3	7	0.5
	28	0.3
	n3	0.5
DC_7-28_n5	7	0.3
	28	0.5
	n5	0.5
DC_7-28_n7	7	0.3
	28	0.3
	n7	0.3
DC_7_n28-n40	7	0.5
	n28	0.3
	n40	0.6
DC_7-28_n40	7	0.5
	28	0.3
	n40	0.6
DC_7-28_n66	7	0.5
	28	0.6
	n66	0.5
DC_7-28_n78	7	0.3
	28	0.3
	n78	0.8
DC_7_n28-n78	7	0.3
	n28	0.3
	n78	0.8
DC_7-29_n78	7	0.5
	n78	0.8
DC_7-32_n1	7	0.6
	n1	0.5
DC_7-32_n3	7	0.7
	n3	0.7
DC_7-32_n8	7	0.7
	n8	0.6
DC_7-32_n28	7	0.3
	n28	0.7
DC_7-32_n78	7	0.5
	n78	0.8
DC_7-38_n3	7	0.5
	38	0.5
	n3	0.5
DC_7_n38-n78	n78	0.8
DC_7_n78-n79	7	0.5
	n78	0.8
	n79	0.8
DC_7-40_n1	7	0.8
	40	0.9
	n1	0.6
DC_7-40-n78	7	0.5
	40	0.35
	n78	0.85
DC_7-46_n78	7	0.5
	n78	0.8
DC_7-66_n5 DC_7-66-66_n5 DC_7-7-66_n5 DC_7-7-66-66_n5	7	0.3
	66	0.3
	n5	0.3
DC_7-66_n7 DC_7-66-66_n7	7	0.5
	66	0.5
	n7	0.5
DC_7-66_n25 DC_7-7-66_n25	7	0.5
	66	0.5
	n25	0.5
DC_7-66_n28	2	0.5
	66	0.5
	n28	0.6
DC_7-66_n38	66	0.5
DC_7-66_n66 DC_7-7-66_n66	7	0.5
	66	0.5
	n66	0.5
DC_7-66_n71 DC_7-66-66_n71	7	0.5
DC_7_n66-n71	66/n66	0.5
	n71	0.5
DC_7-66_n77 DC_7-7-66_n77	7	0.5
DC_7_n66-n77	66	0.6
	n77	0.8
DC_7-66_n78 DC_7-7-66_n78 DC_7-66-66_n78 DC_7-7-66-66_n78	7	0.5
	66 or n66	0.5
DC_7_n66-n78 DC_7-7_n66-n78	7	0.5
	n66	0.6
	n78	0.8
DC_7-71_n66	7	0.5
	71	0.5
	n66	0.5
DC_7-71_n78	7	0.5
	71	0.5
	n78	0.8
DC_7_n71-n78	7	0.3
	n71	0.5
	n78	0.8
DC_7_SUL_n78-n80	7	0.6
	n80	0.6
	n78	0.8
DC_8_n1-n3	8	0.3
	n1	0.3
	n3	0.3
DC_8_n1-n28	8	0.6
	n1	0.3
	n28	0.6
DC_8_n1-n77	8	0.6
	n1	0.6
	n77	0.8
DC_8_n1-n40	8	0.3
	n1	0.3
	n40	0.5
DC_8_n1-n78	8	0.6
	n1	0.3
	n78	0.8
DC_8_(n)3	8	0.3
	3	0.3
	n3	0.3
DC_8_n3-n28	8	0.6
	n3	0.3
	n28	0.5
DC_8_n3-n77	8	0.6
	n3	0.6
	n77	0.8
DC_8_n3-n78	8	0.6
	n3	0.6
	n78	0.8
DC_8_n3-n79	8	0.3
	n3	0.3
	n79	0.8
DC_8-11_n3	8	0.3
	11	0.8
	n3	0.9
DC_8-11_n28	8	0.6
	11	0.4
	n28	0.6
DC_8-11_n77	8	0.6
	11	0.4
	n77	0.8
DC_8-11_n78	8	0.6
	11	0.4
	n78	0.8
DC_8-20_n1	n1	0.3
	8	0.4
	20	0.4
DC_8-20_n3	n3	0.3
	8	0.4
	20	0.4
DC_8-20_n28	8	0.6
	20	0.5
	n28	0.5
DC_8-20_n78	8	0.6
	20	0.6
	n78	0.8
DC_8_n28-n77	8	0.6
	n28	0.5
	n77	0.8
DC_8_n28-n78	8	0.6
	n28	0.5
	n78	0.8
DC_8-32_n1	8	0.3
	n1	0.5
DC_8-32_n3	8	0.3
	n3	0.8
DC_8-32_n28	8	0.5
	n28	0.5
DC_8-38_n1	8	0.3
	38	0.5
	n1	0.5
DC_8_n39-n40	8	0.3
	n39	0.3
	n40	0.3
DC_8_n39-n79	8	0.3
	n39	0.3
DC_8-40_n1	8	0.3
	40	0.5
	n1	0.3
DC_8-40-n78	8	0.6
	40	0.35
	n78	0.85
DC_8_n40-n41	8	0.3
	n40	0.3
	n41	0.3
DC_8_n40-n79	8	0.3
	n40	0.3
DC_8-41_n1	8	0.3
	41	0.3
	n1	0.3
DC_8-41_n3	8	0.3
	41	0.33/0.84
	n3	0.5
DC_8-41_n77	8	0.6
	41	0.3
	n77	0.8
DC_8_n41-n79	8	0.3
	n41	0.3
DC_8_SUL_n41-n81	8	0.3
	n41	0.3
	n81	0.3
DC_8-42_n1	8	0.6
	42	0.8
	n1	0.3
DC_8-42_n3	8	0.6
	42	0.8
	n3	0.6
DC_8-42_n28	8	0.6
	42	0.8
	n28	0.8
DC_8-42_n77	8	0.6
	42	0.8
	n77	0.8
DC_8_n77-n79	8	0.6
	n77	0.8
	n79	0.5
DC_8_SUL_n78-n80	8	0.6
	n80	0.6
	n78	0.8
DC_8_SUL_n78- n81	8	0.6
	n78	0.8
	n81	0.6
DC_11_n1-n77	11	0.4
	n1	0.6
	n77	0.8
DC_11_n3-n28	11	0.8
	n3	0.9
	n28	0.6
DC_11_n3-n77	11	0.8
	n3	0.9
	n77	0.8
DC_11_n3-n79	11	0.8
	n3	0.9
	n79	0.8
DC_11-18_n77	11	0.4
	18	0.3
	n77	0.8
DC_11-18_n78	11	0.4
	18	0.3
	n78	0.8
DC_11_n28-n77	11	0.4
	n28	0.6
	n77	0.8
DC_11_n77-n79	n77	0.5
DC_12_n2-n38	12	0.3
	n2	0.5
	n38	0.5
DC_12_n2-n41	12	0.3
	n2	0.5
	n41	0.5
DC_12_n2-n78	12	0.3
	n2	0.6
	n78	0.8
DC_12_(n)5	5	0.8
	12	0.4
	n5	0.8
DC_12_n7-n66	12	0.8
	n7	0.5
	n66	0.5
DC_12_n7-n78	12	0.5
	n7	0.5
	n78	0.8
DC_12-30_n2	12	0.3
	30	0.3
	n2	0.5
DC_12-30_n5	12	0.8
	30	0.8
	n5	0.3
DC_12-30_n66	12	0.8
	30	0.3
	n66	0.5
DC_12-30_n77	12	0.5
	30	0.3
	n77	0.5
DC_12-48_n5	12	0.4
	48	0.3
	n5	0.8
DC_12-66_n2	12	0.8
	66	0.5
	n2	0.5
DC_12-66_n5 DC_12-66-66_n5	12	0.8
	66	0.8
	n5	0.3
DC_12-66_n25	12	0.8
	66	0.5
	n25	0.5
DC_12-66_n30 DC_12-66-66_n30	12	0.8
	66	0.5
	n30	0.3
DC_12-66_n41	12	0.6
	66	0.5
	n41	0.81
		1.32
DC_12-66_n77	12	0.8
DC_12-66-66_n77	66	0.6
	n77	0.8
DC_12-66_n78	12	0.6
	66	0.6
	n78	0.8
DC_12-66_n66	12	0.8
	66	0.3
	n66	0.3
DC_12_n66-n78	12	0.6
	n66	0.6
	n78	0.8
DC_13_n2-n77	13	0.3
	n2	0.6
	n77	0.8
DC_13_n5-n48	13	0.4
	n5	0.8
	n48	0.3
DC_13_n5-n77	13	0.5
	n5	0.6
	n77	0.8
DC_13_n7-n78	13	0.5
	n7	0.5
	n78	0.8
DC_13_n25-n66	13	0.3
	n25	0.5
	n66	0.5
DC_13-46_n2	13	0.3
	n2	0.3
DC_13-46_n5	13	0.5
	n5	0.5
DC_13-46_n66	13	0.3
	n66	0.3
DC_13-46_n77	13	0.5
DC_13-46-46_n77	n77	0.8
DC_13-48_n2	13	0.3
	48	0.8
	n2	0.6
DC_13-48_n66 DC_13_n48-n66	13	0.3
	48/n48	0.8
	n66	0.6
DC_13-48_n77	13	0.5
	48	0.8
	n77	0.8
DC_13-66_n2 DC_13-66-66_n2	13	0.3
	66	0.5
	n2	0.5
DC_13-66_n5	13	0.5
	66	0.3
	n5	0.5
DC_13-66_n48 DC_13-66-66_n48	13	0.3
	66	0.6
	n48	0.8
DC_13-66_n66 DC_13-66-66_n66	13	0.3
	66	0.3
	n66	0.3
DC_13-66_n77 DC_13-66-66_n77	13	0.5
	66	0.6
	n77	0.8
DC_13_n66-n77	13	0.3
	n66	0.6
	n77	0.8
DC_14-30_n2	14	0.3
	30	0.3
	n2	0.5
DC_14-30_n5	14	0.8
	30	0.8
	n5	0.3
DC_14-30_n66	14	0.3
	30	0.3
	n66	0.5
DC_14-30_n77	14	0.5
	30	0.3
	n77	0.8
DC_14-66_n2 DC_14-66-66_n2	14	0.3
	66	0.5
	n2	0.5
DC_14-66_n5 DC_14-66-66_n5	14	0.8
	66	0.8
	n5	0.3
DC_14-66_n30 DC_14-66-66_n30	14	0.3
	66	0.5
	n30	0.3
DC_14-66_n66	14	0.3
	66	0.3
	n66	0.3
DC_14-66_n77 DC_14-66-66_n77	14	0.6
	66	0.6
	n77	0.8
DC_18_n3-n41	18	0.3
	n3	0.5
	n41	0.3
DC_18_n3-n77	18	0.3
	n3	0.6
	n77	0.8
DC_18_n3-n78	18	0.3
	n3	0.6
	n78	0.8
DC_18_n28-n41	18	0.5
	n28	0.5
	n41	0.3
DC_18-28_n77 DC_18_n28-n77	18	0.5
	28/n28	0.5
	n77	0.8
DC_18-28_n78 DC_18_n28-n78	18	0.5
	28/n28	0.5
	n78	0.8
DC_18-28_n79	18	0.5
	28	0.5
DC_18-41_n3	18	0.3
	41	0.33/0.84
	n3	0.5
DC_18-41_n77 DC_18_n41-n77	18	0.3
	41	0.3
	n77	0.8
DC_18-41_n78 DC_18_n41-n78	18	0.3
	41	0.3
	n78	0.8
DC_18-42_n77	18	0.3
	42	0.8
	n77	0.8
DC_18-42_n78	18	0.3
	42	0.8
	n78	0.8
DC_18-42_n79	18	0.3
	42	0.8
DC_19_n1-n77	19	0.3
	n1	0.3
	n77	0.8
DC_19_n1-n78	19	0.3
	n1	0.3
	n78	0.8
DC_19_n1-n79	19	0.3
	n1	0.3
	n79	0.0
DC_19-21_n1	19	0.3
	21	0.4
	n1	0.3
DC_19-21_n77	19	0.3
	21	0.4
	n77	0.8
DC_19-21_n78	19	0.3
	21	0.4
	n78	0.8
DC_19-21_n79	19	0.3
	21	0.4
DC_19-42_n1	19	0.3
	42	0.8
	n1	0.3
DC_19-42_n77	19	0.3
	42	0.8
	n77	0.8
DC_19-42_n78	19	0.3
	42	0.8
	n78	0.8
DC_19-42_n79	19	0.3
	42	0.8
DC_19_n77-n79	19	0.3
	n77	0.8
DC_19_n78-n79	19	0.3
	n78	0.8
	n79	0.5
DC_20_n1-n7	20	0.3
	n1	0.5
	n7	0.6
DC_20_n1-n28	20	0.3
	n1	0.6
	n28	0.6
DC_20_n1-n67	20	0.6
	n1	0.5
	n67	0.6
DC_20_n1-n78	20	0.3
	n1	0.3
	n78	0.8
DC_20_n3-n67	20	0.5
	n3	0.3
	n67	0.5
DC_20_n3-n78	20	0.3
	n3	0.5
	n78	0.8
DC_20_n7-n28	20	0.5
	n7	0.3
	n28	0.5
DC_20_n8-n75	20	0.4
	n8	0.4
DC_20_n7-n78	20	0.3
	n7	0.3
	n78	0.8
DC_20_n8-n78	20	0.6
	n8	0.6
	n78	0.8
DC_20-28_n1	n1	0.5
	20	0.6
	28	0.6
DC_20-28_n3	2	0.5
	28	0.6
	n3	0.5
DC_20_n28-n75	20	0.5
	n28	0.7
DC_20_n28-n78	20	0.6
	n28	0.6
	n78	0.8
DC_20-32_n1	20	0.3
	n1	0.5
DC_20-32_n3	20	0.3
	n3	0.5
DC_20-32_n8	20	0.4
	n8	0.4
DC_20-32_n28	20	0.5
	n28	0.7
DC_20-32_n78	20	0.5
	n78	0.8
DC_20A-38A_n1	20	0.5
	38	0.3
	n1	0.5
DC_20-38_n3	20	0.3
	38	0.5
	n3	0.5
DC_20-(n)38	20	0.3
	38	0.3
	n38	0.3
DC_20-38_n78	20	0.6
	n78	0.8
DC_20_n38-n78	20	0.6
	n38	0.3
	n78	0.8
DC_20-40-n1	20	0.3
	40	0.5
	n1	0.5
DC_20-40_n78	20	0.6
	40	0.35
	n78	0.85
DC_20_n41-n78	20	0.5
	n41	0.3
	n78	0.8
DC_20_n75-n78	20	0.5
	n78	0.8
DC_20_n76-n78	20	0.5
	n78	0.8
DC_20_SUL_n78-n80	20	0.3
	n80	0.5
	n78	0.8
DC_20_SUL_n78-n82	20	0.6
	n78	0.8
	n82	0.6
DC_20_SUL_n78-n83	20	0.8
	n78	0.8
	n83	0.8
DC_20_n78-n92	20	0.6
	n78	0.8
DC_21_n1-n77	21	0.3
	n1	0.3
	n77	0.8
DC_21_n1-n78	21	0.4
	n1	0.6
	n78	0.8
DC_21_n1-n79	21	0.3
	n1	0.3
DC_21_n28-n77	21	0.4
	n28	0.5
	n77	0.8
DC_21_n28-n78	21	0.4
	n28	0.5
	n78	0.8
DC_21_n28-n79	21	0.4
	n28	0.3
DC_21-42_n1	21	0.4
	42	0.8
	n1	0.3
DC_21-42_n77	21	0.4
	42	0.8
	n77	0.8
DC_21-42_n78	21	0.4
	42	0.8
	n78	0.8
DC_21-42_n79	21	0.4
	42	0.8
DC_21_n77-n79	21	0.4
	n77	0.8
DC_21_n78-n79	21	0.4
	n78	0.8
	n79	0.5
DC_25-41_n41 DC_25_(n)41 DC_25-25-41_n41 DC_25-25_(n)41	25	0.5
	41	0.41
		0.92
	n41	0.41
		0.92
DC_25-66_n77 DC_25-25-66_n77	25	0.6
	66	0.6
	n77	0.8
DC_25-66_n78 DC_25-25-66_n78	25	0.6
	66	0.6
	n78	0.8
DC_28_n1-n40	28	0.6
	n1	0.3
	n40	0.5
DC_28_n1-n78	28	0.6
	n1	0.3
	n78	0.8
DC_28_n3-n77	28	0.5
	n3	0.6
	n77	0.8
DC_28_n3-n78	28	0.3
	n3	0.6
	n78	0.8
DC_28_n7-n78	28	0.3
	n7	0.3
	n78	0.8
DC_28_n8-n78	28	0.5
	n8	0.6
	n78	0.3
DC_28_n40-n78	28	0.5
	n40	0.35
	n78	0.85
DC_28-32_n1	n1	0.5
	28	0.6
DC_28-32_n3	n3	0.3
	28	0.3
DC_28-38_n1	28	0.6
	38	0.5
	n1	0.5
DC_28-41_n77	28	0.5
	41	0.3
	n77	0.8
DC_28-41_n78	28	0.5
	41	0.3
	n78	0.8
DC_28-41_n79	28	0.3
	41	0.3
	n79	0.8
DC_28_SUL_n41-n83	n28	0.3
	n41	0.3
	n83	0.3
DC_28-42_n77	28	0.5
	42	0.8
	n77	0.8
DC_28-42_n78	28	0.5
	42	0.8
	n78	0.8
DC_28-42_n79	28	0.5
	42	0.8
DC_28-66_n7	28	0.6
	66	0.5
	n7	0.5
DC_28-66_n66	28	0.6
	66	0.3
	n66	0.3
DC_28_SUL_n78-n83	28	0.5
	n78	0.8
	n83	0.5
DC_29-30_n2	30	0.3
	n2	0.5
DC_29-30_n66	30	0.3
	n66	0.5
DC_29-30_n77	30	0.3
	n77	0.5
DC_29-66_n2 DC_29-66-66_n2	66	0.5
	n2	0.5
DC_29-66_n30 DC_29-66-66_n30	66	0.5
	n30	0.3
DC_29-66_n77	66	0.6
DC_29-66-66_n77	n77	0.8
DC_29-66_n78	66	0.6
	n78	0.8
DC_30-(n)5	30	0.3
	5	0.3
	n5	0.3
DC_30-66_n2	30	0.3
	66	0.5
	n2	0.5
DC_30-66_n5, DC_30-66-66_n5, DC_30-66-66-66_n5	30	0.3
	66	0.5
	n5	0.3
DC_30-66_n66	30	0.3
	66	0.5
	n66	0.5
DC_30-66_n77	30	0.3
DC_30-66-66_n77	66	0.6
	n77	0.8
DC_32-38_n1	38	0.5
	n1	0.5
DC_32-38_n28	38	0.7
	n28	0.6
DC_38_n3-n78	38	0.5
	n3	0.6
	n78	0.8
DC_39_n40-n41	39	0.3
	n40	0.3
	n41	0.3
DC_39_n40-n79	39	0.3
	n79	0.8
DC_39_n41-n79	39	0.5
	n41	0.5
	n79	0.8
DC_40_n1-n78	40	0.5
	n1	0.3
	n78	0.8
DC_40-42_n77	40	0.45
	42	0.55
	n77	0.55
DC_40-42_n78	40	0.45
	42	0.55
	n78	0.55
DC_41_n1-n3	41	0.53
		0.84
	n1	0.5
DC_41_n1-n77	41	0.5
	n1	0.5
	n77	0.8
DC_41_n3-n41	41	0.33/084
	n3	0.5
	n41	0.33/084
DC_41_n3-n77	41	0.33/084
	n3	0.6
	n77	0.8
DC_41_n3-n78	41	0.33/084
	n3	0.6
	n78	0.8
DC_41_n28-n41	41	0.33/084
	n28	0.3
	n41	0.33/084
DC_41_n28-n77	41	0.3
	n28	0.5
	n77	0.8
DC_41_n28-n78	41	0.3
	n28	0.5
	n78	0.8
DC_41_n41-n77	41	0.3
	n41	0.3
	n77	0.8
DC_41_n41-n78	41	0.3
	n41	0.3
	n78	0.8
DC_(n)41-n78	41	0.3
	n41	0.3
	n78	0.8
DC_41-42_n77	41	0.5
	42	0.8
	n77	0.8
DC_41-42_n78	41	0.5
	42	0.8
	n78	0.8
DC_41-42_n79	41	0.3
	42	0.8
DC_42_n1-n3	42	0.8
	n1	0.3
	n3	0.6
DC_42_n1-n77	42	0.8
	n1	0.6
	n77	0.8
DC_42_n1-n78	42	0.8
	n1	0.3
	n78	0.8
DC_42_n1-n79	42	0.8
	n1	0.3
DC_42_n3-n28	42	0.8
	n3	0.6
	n28	0.8
DC_42_n3-n77	42	0.8
	n3	0.6
	n77	0.8
DC_42_n28-n77	42	0.5
	n28	0.8
	n77	0.8
DC_46-48_n5	48	0.8
	n5	0.3
DC_46-48_n66	48	0.8
	66	0.6
DC_46-66_n5 DC_46-66-66_n5	66	0.3
	n5	0.3
DC_46-66_n25	66	0.5
	n25	0.5
DC_46-66_n77	66	0.6
DC_46-46-66_n77	n77	0.8
DC_48_(n)5	5	0.3
	48	0.3
	n5	0.3
DC_48_(n)12	12	0.3
	n12	0.3
	48	0.3
DC_48_n25-n48	48	0.8
	n25	0.6
	n48	0.8
DC_48_n48-n66	48	0.8
	n48	0.8
	n66	0.6
DC_48-66_n2	48	0.8
	66	0.6
	n2	0.6
DC_48-66_n12	48	0.8
	66	0.6
	n12	0.3
DC_48-66_n25	48	0.8
	66	0.6
	n25	0.6
DC_48-66_n48	66	0.6
	48	0.8
	n48	0.8
DC_48-66_n71	48	0.8
	66	0.6
	n71	0.3
DC_48-66_n5	48	0.8
	66	0.6
	n5	0.3
DC_48-66_n66	48	0.8
	66	0.6
	n66	0.6
DC_48-66_n77	48	0.8
	66	0.6
	n77	0.8
DC_66_n2-n38	66	0.5
	n2	0.5
	n38	0.9
DC_66_n2-n66	66	0.5
	n2	0.5
	n66	0.5
DC_66_n2-n71	66	0.5
	n2	0.5
	n71	0.3
DC_66_n2-n77	66	0.6
	n2	0.6
	n77	0.8
DC_66_n2-n78	66	0.6
	n2	0.6
	n78	0.8
DC_66-(n)5 DC_66-66-(n)5	5	0.3
	n5	0.3
	66	0.3
DC_66_n5-n48	66	0.6
	n5	0.3
	n48	0.8
DC_66_n5-n77	66	0.6
	n5	0.3
	n77	0.8
DC_66_n7-n78	66	0.6
	n7	0.5
	n78	0.8
DC_66_(n)12	12	0.8
	n12	0.8
	66	0.5
DC_66_n25-n41	66	0.5
	n25	0.5
	n41	0.81
		1.32
DC_66_n25-n48	66	0.6
	n25	0.6
	n48	0.8
DC_66_n25-n66	66	0.5
	n25	0.5
	n66	0.5
DC_66_n25-n71	66	0.5
	n25	0.5
	n71	0.3
DC_66_n38-n66	66	0.5
	n38	0.5
	n66	0.5
DC_66_n38-n71	66	0.5
	n38	0.8
	n71	0.5
DC_66_n38-n78	66	0.6
	n38	0.5
	n78	0.8
DC_66_n41-n71	66	0.5
	n41	0.81
		1.32
	n71	0.6
DC_66_n66-n71	66	0.3
	n66	0.3
	n71	0.3
DC_66_n66-n77	66	0.6
	n66	0.6
	n77	0.8
DC_66_n66-n78	66	0.6
	n66	0.6
	n78	0.8
DC_66_(n)71	66	0.3
	71	0.3
	n71	0.3
DC_66-71_n38	66	0.5
	71	0.5
	n38	0.8
DC_66-71_n41	66	0.5
	71	0.6
	n41	0.81
		1.32
DC_66-71_n66	66	0.3
	71	0.3
	n66	0.3
DC_66-71_n78	66	0.6
DC_66_n71-n78	71/n71	0.6
	n78	0.8
DC_66_SUL_n78-n86	66	0.6
	n78	0.8
	n86	0.6
DC_71_n2-n41	71	0.3
	n2	0.5
	n41	0.5
DC_71_n2-n66	71	0.3
	n2	0.5
	n66	0.5
DC_71_n2-n78	71	0.6
	n2	0.6
	n78	0.8
DC_71_n38-n66	71	0.5
	n38	0.8
	n66	0.5
DC_71_n38-n78	71	0.5
	n38	0.3
	n78	0.8
DC_71_n66-n78	71	0.6
	n66	0.6
	n78	0.8
NOTE 1: The requirement is applied for UE transmitting on the frequency range of 2545 – 2690 MHz. NOTE 2: The requirement is applied for UE transmitting on the frequency range of 2496 – 2545 MHz. NOTE 3: The requirement is applied for UE transmitting on the frequency range of 2515 – 2690 MHz. NOTE 4: The requirement is applied for UE transmitting on the frequency range of 2496 – 2515 MHz. NOTE 5: Only applicable for UE supporting inter-band carrier aggregation with uplink in one NR band and without simultaneous Rx/Tx.

6.2B.4.2.3.3 ΔT_IB,c for EN-DC four bands

Table 6.2B.4.2.3.3-1: ΔT_IB,c due to EN-DC(four bands)

Inter-band EN-DC configuration	E-UTRA or NR Band	ΔTIB,c (dB)
DC_1-3_n3-n41	1	0.5
	3	0.5
	n3	0.5
	n41	0.34/0.85
DC_1-3_n3-n77	1	0.6
	3	0.6
	n3	0.6
	n77	0.8
DC_1-3_n3-n78	1	0.6
	3	0.6
	n3	0.6
	n78	0.8
DC_1-3-5_n77	1	0.6
	3	0.6
	5	0.6
	n77	0.8
DC_1-3-5_n78	1	0.6
	3	0.6
	5	0.3
	n78	0.8
DC_1-3-5_n79	1	0.3
	3	0.3
	5	0.3
DC_1-3-7_n3	1	0.6
	3	0.6
	7	0.6
	n3	0.6
DC_1-3-7_n5	1	0.6
	3	0.6
	7	0.6
	n5	0.3
DC_1-3-7_n7	1	0.6
	3	0.6
	7	0.6
	n7	0.6
DC_1-3-7_n8	1	0.6
	3	0.6
	7	0.6
	n8	0.3
DC_1-3-7_n28	1	0.6
	3	0.6
	7	0.6
	n28	0.6
DC_1-3-7_n38	1	0.6
	3	0.6
DC_1-3-7_n40	1	0.6
	3	0.6
	7	0.8
	n40	0.9
DC_1-3-7_n77	1	0.6
	3	0.6
	7	0.6
	n77	0.8
DC_1-3-7_n78 DC_1-3-7-7_n78 DC_1-3_n7-n78	1	0.7
	3	0.7
	7 or n7	0.7
	n78	0.8
DC_1-3-8_n28	1	0.3
	3	0.3
	8	0.6
	n28	0.6
DC_1-3-8_n77	1	0.6
	3	0.6
	8	0.6
	n77	0.8
DC_1-3-8_n78	1	0.6
	3	0.6
	8	0.6
	n78	0.8
DC_1-3_n8-n78	1	0.6
	3	0.6
	n8	0.6
	n78	0.8
DC_1-3-8_n79	1	0.3
	3	0.3
	8	0.3
DC_1-3-11_n28	1	0.3
	3	0.8
	11	0.9
	n28	0.6
DC_1-3-11_n77	1	0.6
	3	0.8
	11	0.9
	n77	0.8
DC_1-3-18_n3	1	0.3
	3	0.3
	18	0.3
	n3	0.3
DC_1-3-18_n28	1	0.3
	3	0.3
	18	0.3
	n28	0.6
DC_1-3-18_n41	1	0.3
	3	0.3
	18	0.3
	n41	0.34
DC_1-3-28_n3	1	0.3
	3	0.3
	28	0.6
	n3	0.3
DC_1-3-18_n77	1	0.6
	3	0.6
	18	0.3
	n77	0.8
DC_1-3-18_n78	1	0.6
	3	0.6
	18	0.3
	n78	0.8
DC_1-3-18_n79	1	0.3
	3	0.3
	18	0.3
DC_1-3-19_n78	1	0.6
	3	0.6
	19	0.3
	n78	0.8
DC_1-3-19_n79	1	0.3
	3	0.3
	19	0.3
DC_1-3-20_n7	1	0.3
	3	0.5
	20	0.3
	n7	0.5
DC_1-3-20_n8	1	0.6
	3	0.6
	20	0.6
	n8	0.6
DC_1-3-20_n28	1	0.3
	3	0.3
	20	0.6
	n28	0.6
DC_1-3-20_n38	1	0.5
	3	0.5
	20	0.5
	n38	0.5
DC_1-3-20_n41	1	0.5
	3	0.5
	20	0.3
	n41	0.84
		1.35
DC_1-3-20_n78	1	0.6
	3	0.6
	20	0.3
	n78	0.8
DC_1-3-21_n77	1	0.6
	3	0.8
	21	0.9
	n77	0.8
DC_1-3-21_n78	1	0.6
	3	0.8
	21	0.9
	n78	0.8
DC_1-3-21_n79	1	0.3
	3	0.8
	21	0.9
DC_1-3-28_n5	1	0.3
	3	0.3
	28	0.6
	n5	0.6
DC_1-3-28_n7	1	0.6
	3	0.6
	28	0.6
	n7	0.6
DC_1-3-28_n40	1	0.5
	3	0.5
	28	0.6
	n40	0.5
DC_1-3_n28-n75	1	0.3
	3	0.3
	n28	0.6
DC_1-3-28_n77 DC_1_n3-n28-n77	1	0.6
	3 or n3	0.6
	28 or n28	0.6
	n77	0.8
DC_1-3-28_n78 DC_1-3_n28-n78	1	0.6
	3	0.6
	28 or n28	0.6
	n78	0.8
DC_1-3-28_n79 DC_1_n3-n28-n79	1	0.6
	3 or n3	0.6
	28 or n28	0.6
DC_1-3_n28-n77	1	0.6
	3	0.6
	n28	0.6
	n77	0.8
DC_1-3_n28-n79	1	0.3
	3	0.3
	n28	0.6
DC_1-3-32_n28	1	0.3
	3	0.3
	n28	0.6
DC_1-3-38_n28	1	0.5
	3	0.5
	38	0.5
	n28	0.6
DC_1-3-32_n78	1	0.6
	3	0.6
	n78	0.8
DC_1-3-38_n78	1	0.6
	3	0.6
	38	0.5
	n78	0.8
DC_1-3_n38-n78	1	0.5
	3	0.6
	n38	0.6
	n78	0.8
DC_1-3_n40-n78	1	0.5
	3	0.6
	n40	0.36
	n78	0.86
DC_1-3-40_n78	1	0.6
	3	0.6
	40	0.39
	n78	0.89
DC_1-3-41_n3	1	0.5
	3	0.5
	41	0.34/0.85
	n3	0.5
DC_1-3-41_n28	1	0.5
	3	0.5
	41	0.34/0.85
	n28	0.6
DC_1-3-41_n41	1	0.5
	3	0.5
	41	0.34/0.85
	n41	0.34/0.85
DC_1-3_(n)41	1	0.5
	3	0.5
	41	0.34/0.85
	n41	0.34/0.85
DC_1-3-41_n77 DC_1-3_n41-n77	1	0.6
	3	0.6
	41/n41	0.5
	n77	0.8
DC_1-3-41_n78 DC_1-3_n41-n78	1	0.6
	3	0.6
	41 or n41	0.5
	n78	0.8
DC_1-3-41_n79	1	0.5
	3	0.5
	41	0.34/0.85
DC_1-3-42_n28	1	0.6
	3	0.6
	42	0.8
	n28	0.8
DC_1-3-42_n77	1	0.6
	3	0.6
	42	0.8
	n77	0.8
DC_1-3-42_n78	1	0.6
	3	0.6
	42	0.8
	n78	0.8
DC_1-3-42_n79	1	0.6
	3	0.6
	42	0.8
DC_1-3_n77-n79 DC_1_n3-n77-n79	1	0.6
	3 or n3	0.6
	n77	0.8
DC_1-3_n78-n79	1	0.6
	3	0.6
	n78	0.8
DC_1-3_SUL_n78-n80	1	0.6
	3, n80	0.6
	n78	0.8
DC_1-5-7_n77	1	0.6
	5	0.6
	7	0.6
	n77	0.8
DC_1-5-7_n78 DC_1-5-7-7_n78	1	0.6
	5	0.6
	7	0.6
	n78	0.8
DC_1-5-41_n79	1	0.5
	5	0.3
	41	0.5
DC_1-7_n3-n38	1	0.6
	7	0.6
	n3	0.6
	n38	0.5
DC_1-7_n3-n78	1	0.5
	7	0.2
	n3	0.6
	n78	0.8
DC_1-7_n7-n78	1	0.6
	7	0.6
	n7	0.6
	n78	0.8
DC_1-7-8_n3	1	0.6
	7	0.6
	8	0.3
	n3	0.6
DC_1-7-8_n28	1	0.5
	7	0.6
	8	0.6
	n28	0.6
DC_1-7-8_n78	1	0.6
DC_1-7_n8-n78	7	0.6
	8 or n8	0.6
	n78	0.8
DC_1-7-20_n3	1	0.3
	7	0.5
	20	0.3
	n3	0.5
DC_1-7-20_n8	1	0.6
	7	0.6
	20	0.6
	n8	0.6
DC_1-7-20_n28	1	0.5
	7	0.6
	20	0.6
	n28	0.6
DC_1-7-20_n38	1	0.5
	20	0.3
DC_1-7-20_n78	1	0.6
	7	0.7
	20	0.4
	n78	0.8
DC_1-7-28_n3	1	0.6
	7	0.6
	28	0.6
	n3	0.6
DC_1-7-28_n5	1	0.3
	7	0.3
	28	0.6
	n5	0.6
DC_1-7-28_n7	1	0.5
	7	0.6
	28	0.6
	n7	0.6
DC_1-7-28_n40	1	0.6
	7	0.8
	28	0.6
	n40	0.9
DC_1-7-28_n78	1	0.6
	7	0.6
	28	0.6
	n78	0.8
DC_1-7_n28-n78	1	0.6
	7	0.6
	n28	0.6
	n78	0.8
DC_1-7-32_n3	1	0.6
	7	0.6
	n3	0.6
DC_1-7-32_n8	1	0.7
	7	0.7
	n8	0.6
DC_1-7-32_n28	1	0.5
	7	0.6
	n28	0.7
DC_1-7-38_n3	1	0.6
	n3	0.6
DC_1-7-38_n78	1	0.3
	n78	0.8
DC_1-7-32_n78	1	0.2
	7	0.2
	n78	0.5
DC_1-7-38_n8	1	0.5
	n8	0.5
DC_1-7-38_n28	1	0.3
	n28	0.6
DC_1-7-40_n78	1	0.6
	7	0.5
	40	0.39
	n78	0.89
DC_1-7_n40-n78	1	0.6
	7	0.5
	n40	0.5
	n78	0.8
DC_1-8_n3-n28	1	0.3
	8	0.6
	n3	0.3
	n28	0.6
DC_1-8_n3-n77	1	0.6
	8	0.6
	n3	0.8
	n77	0.8
DC_1-8_n3-n79	1	0.3
	8	0.3
	n3	0.3
	n79	0.8
DC_1-8-11_n3	1	0.3
	8	0.3
	11	0.8
	n3	0.9
DC_1-8-11_n28	1	0.3
	8	0.6
	11	0.4
	n28	0.6
DC_1-8-11_n77	1	0.6
	8	0.6
	11	0.4
	n77	0.8
DC_1-8-11_n78	1	0.3
	8	0.6
	11	0.4
	n78	0.8
DC_1-8-11_n79	1	0.3
	8	0.3
	11	0.4
DC_1-8-20_n3	1	0.3
	8	0.4
	20	0.4
	n3	0.3
DC_1-8-20_n28	1	0.3
	8	0.6
	20	0.6
	n28	0.6
DC_1-8-20_n78	1	0.3
	8	0.6
	20	0.6
	n78	0.8
DC_1-8-28_n3	1	0.3
	8	0.6
	28	0.6
	n3	0.3
DC_1-8_n28-n77	1	0.6
	8	0.6
	n28	0.6
	n77	0.8
DC_1-8-28_n78	1	0.3
	8	0.6
	28	0.6
	n78	0.8
DC_1-8_n28-n78	1	0.3
	8	0.6
	n28	0.5
	n78	0.8
DC_1-8_n28-n79	1	0.3
	8	0.6
	n28	0.6
	n79	0.8
DC_1-8-32_n3	1	0.5
	8	0.3
	n3	0.8
DC_1-8-32_n78	1	0.5
	8	0.6
	n78	0.8
DC_1-8-40_n78	1	0.6
	8	0.6
	40	0.39
	n78	0.89
DC_1-8-42_n3	1	0.3
	8	0.6
	42	0.8
	n3	0.6
DC_1-8-42_n28	1	0.3
	8	0.6
	42	0.8
	n28	0.8
DC_1-8_n40-n78	1	0.5
	8	0.3
	n40	0.5
	n78	0.8
DC_1-8-42_n77	1	0.6
	8	0.6
	42	0.8
	n77	0.8
DC_1-8_n77-n79	1	0.6
	8	0.6
	n77	0.8
	n79	0.5
DC_1-11_n3-n28	1	0.3
	11	0.8
	n3	0.9
	n28	0.6
DC_1-11_n3-n77	1	0.6
	11	0.8
	n3	0.9
	n77	0.8
DC_1-11_n3-n79	1	0.3
	11	0.8
	n3	0.9
	n79	0.8
DC_1-11-18_n3	1	0.3
	11	0.9
	18	0.3
	n3	0.8
DC_1-11-18_n28	1	0.3
	11	0.4
	18	0.4
	n28	0.6
DC_1-11-18_n41	1	0.5
	11	0.4
	18	0.3
	n41	0.5
DC_1-11-18_n77	1	0.6
	11	0.4
	18	0.3
	n77	0.8
DC_1-11-18_n78	1	0.3
	11	0.4
	18	0.3
	n78	0.8
DC_1-11_n77-n79	1	0.6
	11	0.4
	n77	0.8
DC_1-18_n3-n41	1	0.3
	18	0.3
	n3	0.3
	n41	0.34
DC_1-18_n3-n77	1	0.6
	18	0.3
	n3	0.6
	n77	0.8
DC_1-18_n3-n78	1	0.6
	18	0.3
	n3	0.6
	n78	0.8
DC_1-18_n28-n41	1	0.3
	18	0.3
	n28	0.5
	n41	0.34
DC_1-18-28_n77 DC_1-18_n28-n77	1	0.3
	18	0.5
	28	0.5
	n77	0.8
DC_1-18-28_n78 DC_1-18_n28-n78	1	0.3
	18	0.5
	28	0.5
	n78	0.8
DC_1-18-28_n79	1	0.3
	18	0.5
	28	0.5
DC_1-18-41_n77 DC_1-18_n41-n77	1	0.6
	18	0.3
	41/n41	0.5
	n77	0.8
DC_1-18-41_n78 DC_1-18_n41-n78	1	0.5
	18	0.3
	41/n41	0.5
	n78	0.8
DC_1-18-42_n77	1	0.3
	18	0.3
	42	0.8
	n77	0.8
DC_1-18-42_n78	1	0.3
	18	0.3
	42	0.8
	n78	0.8
DC_1-18-42_n79	1	0.3
	18	0.3
	42	0.8
DC_1-19-42_n77	1	0.6
	19	0.3
	42	0.8
	n77	0.8
DC_1-19-42_n78	1	0.3
	19	0.3
	42	0.8
	n78	0.8
DC_1-19-42_n79	1	0.3
	19	0.3
	42	0.8
DC_1-19_n77-n79	1	0.3
	19	0.3
	n77	0.8
DC_1-19_n78-n79	1	0.3
	19	0.3
	n78	0.8
DC_1-20_n3-n38	1	0.5
	20	0.3
	n3	0.3
	n38	0.5
DC_1-20_n3-n78	1	0.3
	20	0.6
	n3	0.3
	n78	0.8
DC_1-20_n7-n78	1	0.5
	20	0.3
	n7	0.3
	n78	0.8
DC_1-20_n8-n78	1	0.3
	20	0.6
	n8	0.6
	n78	0.8
DC_1-20-28_n3	1	0.3
	20	0.6
	28	0.6
	n3	0.3
DC_1-20_n28-n75	1	0.3
	20	0.6
	n28	0.7
DC_1-20-28_n78	1	0.3
	20	0.6
	28	0.6
	n78	0.8
DC_1-20_n28-n78	1	0.3
	20	0.6
	n28	0.6
	n78	0.8
DC_1-20-32_n3	1	0.5
	20	0.3
	n3	0.5
DC_1-20-32_n28	1	0.3
	20	0.6
	n28	0.7
DC_1-20-32_n78	1	0.3
	20	0.3
	n78	0.8
DC_1-20-38_n3	1	0.3
	20	0.3
	38	0.3
	n3	0.3
DC_1-20_(n)38	1	0.5
	20	0.3
	38	0.5
	n38	0.5
DC_1-20-38_n8	1	0.5
	20	0.5
	38	0.5
	n8	0.6
DC_1-20-38_n78	1	0.3
	20	0.6
	n78	0.8
DC_1-20-40_n78	1	0.5
	20	0.3
	40	0.59
	n78	0.89
DC_1-20_n41-n78	1	0.5
	20	0.3
	n41	0.5
	n78	0.8
DC_1-21-28_n77	1	0.6
	21	0.4
	28	0.6
	n77	0.8
DC_1-21-28_n78	1	0.3
	21	0.4
	28	0.6
	n78	0.8
DC_1-21-28_n79	1	0.3
	21	0.4
	28	0.6
DC_1-21_n28-n77	1	0.3
	21	0.4
	n28	0.6
	n77	0.8
DC_1-21_n28-n78	1	0.6
	21	0.4
	n28	0.6
	n78	0.8
DC_1-21_n28-n79	1	0.3
	21	0.4
	n28	0.6
DC_1-21-42_n77	1	0.6
	21	0.4
	42	0.8
	n77	0.8
DC_1-21-42_n78	1	0.3
	21	0.4
	42	0.8
	n78	0.8
DC_1-21-42_n79	1	0.3
	21	0.4
	42	0.8
DC_1-21_n77-n79	1	0.3
	21	0.3
	n77	0.8
DC_1-21_n78-n79	1	0.3
	21	0.3
	n78	0.8
DC_1-28_n3-n77	1	0.6
	28	0.6
	n3	0.6
	n77	0.8
DC_1-28_n3-n78	1	0.6
	28	0.6
	n3	0.6
	n78	0.8
DC_1-28_n7-n78	1	0.6
	28	0.6
	n7	0.6
	n78	0.8
DC_1-28-32_n3	1	0.5
	28	0.6
	n3	0.5
DC_1-28-40_n78	1	0.5
	28	0.5
	40	0.36
	n78	0.86
DC_1-28_n40-n78	1	0.5
	28	0.5
	n40	0.36
	n78	0.86
DC_1-28-42_n77	1	0.6
	28	0.6
	42	0.8
	n77	0.8
DC_1-28-42_n78	1	0.3
	28	0.6
	42	0.8
	n78	0.8
DC_1-28-42_n79	1	0.3
	28	0.6
	42	0.8
DC_1_n28-n77-n79	1	0.6
	n28	0.6
	n77	0.8
	n79	0.5
DC_1_n28-n78-n79	1	0.3
	n28	0.6
	n78	0.8
	n79	0.5
DC_1-38_n3-n78	1	0.5
	38	0.6
	n3	0.6
	n78	0.8
DC_1-41_n3-n41	1	0.5
	41	0.34/0.85
	n3	0.5
	n41	0.34/0.85
DC_1-41_n3-n77	1	0.6
	41	0.34/0.85
	n3	0.6
	n77	0.8
DC_1-41_n3-n78	1	0.6
	41	0.34/0.85
	n3	0.6
	n78	0.8
DC_1-41_n28-n41	1	0.5
	41	0.34/0.85
	n28	0.5
	n41	0.34/0.85
DC_1-41_n28-n77	1	0.6
	41	0.5
	n28	0.5
	n77	0.8
DC_1-41_n28-n78	1	0.5
	41	0.5
	n28	0.5
	n78	0.8
DC_1-41_n41-n77	1	0.5
	41	0.5
	n41	0.5
	n77	0.8
DC_1-41_n41-n78	1	0.5
	41	0.5
	n41	0.5
	n78	0.8
DC_1-41-42_n77	1	0.5
	41	0.5
	42	0.8
	n77	0.8
DC_1-41-42_n78	1	0.5
	41	0.5
	42	0.8
	n78	0.8
DC_1-41-42_n79	1	0.5
	41	0.5
	42	0.8
DC_1-42_n3-n28	1	0.3
	42	0.8
	n3	0.6
	n28	0.8
DC_1-42_n3-n77	1	0.6
	42	0.8
	n3	0.6
	n77	0.8
DC_1-42_n77-n79	1	0.6
	42	0.8
	n77	0.8
DC_1-42_n28-n77	1	0.6
	42	0.8
	n28	0.8
	n77	0.8
DC_1-42_n78-n79	1	0.3
	42	0.8
	n78	0.8
DC_2-4-7_n28	2	0.5
	4	0.5
	7	0.5
	n28	0.6
DC_2-5_n2-n77	2	0.6
	5	0.6
	n2	0.6
	n77	0.8
DC_2-5_n2-n78	2	0.6
	5	0.6
	n2	0.6
	n78	0.8
DC_2-5_n5-n77	2	0.6
	5	0.6
	n5	0.6
	n77	0.8
DC_2-5-7_n2	2	0.5
	5	0.3
	7	0.5
	n2	0.3
DC_2-5-7_n7	2	0.5
	5	0.3
	7	0.5
	n7	0.5
DC_2-5-7_n66 DC_2-2-5-7_n66 DC_2-5-7-7_n66	2	0.5
	5	0.3
	7	0.5
	n66	0.5
DC_2-5-7_n78	2	0.6
	5	0.6
	7	0.6
	n78	0.8
DC_2-5_(n)12	2	0.3
	5	0.8
	12	0.4
	n12	0.4
DC_2-12_(n)5	5	0.5
	12	0.3
	n5	0.5
DC_2-5-30_n2	2	0.5
	5	0.3
	30	0.3
	n2	0.5
DC_2-5-30_n66	2	0.5
	5	0.3
	30	0.3
	n66	0.5
DC_2-5-30_n77 DC_2-2-5-30_n77	2	0.6
	5	0.6
	30	0.3
	n77	0.8
DC_2-5-48_n12	2	0.6
	5	0.8
	48	0.8
	n12	0.4
DC_2-5-48_n71	2	0.6
	5	0.5
	48	0.8
	n71	0.5
DC_2-5-48_n77	2	0.6
	5	0.6
	48	0.8
	n77	0.8
DC_2-5-66_n2	2	0.5
	5	0.3
	66	0.5
	n2	0.5
DC_2-5-66_n5	2	0.5
	5	0.3
	66	0.5
	n5	0.3
DC_2-5-66_n7	2	0.5
	5	0.3
	66	0.5
	n7	0.5
DC_2-5-66_n12	2	0.3
	5	0.5
	66	0.5
	n12	0.3
DC_2-5-66_n30 DC_2-2-5-66_n30 DC_2-5-66-66_n30	2	0.5
	5	0.3
	66	0.5
	n30	0.3
DC_2-5-66_n48 DC_2-5-66-66_n48	2	0.5
	5	0.3
	66	0.5
	n48	0.8
DC_2-5-66_n66 DC_2-5-5-66_n66 DC_2-5-66-66_n66 DC_2-2-5-66-66_n66 DC_2-5-5-66-66_n66	2	0.5
	5	0.3
	66	0.5
	n66	0.5
DC_2-5-66_n71	2	0.5
	5	0.5
	66	0.5
	n71	0.5
DC_2-5-66_n77 DC_2-2-5-66_n77 DC_2-5-66-66_n77	2	0.5
	5	0.3
	66	0.5
	n77	0.8
DC_2-5-66_n78	2	0.6
	5	0.6
	66	0.6
	n78	0.8
DC_2-5_n66-n77	2	0.6
	5	0.6
	n66	0.6
	n77	0.8
DC_2-5_n66-n78	2	0.5
	5	0.3
	n66	0.5
	n78	0.8
DC_2-7_n2-n78	2	0.6
	7	0.5
	n2	0.6
	n78	0.8
DC_2-7-12_n2	2	0.5
	7	0.5
	12	0.3
	n2	0.5
DC_2-7-12_n66 DC_2-2-7-12_n66	2	0.5
	7	0.5
	12	0.8
	n66	0.5
DC_2-7-12_n78 DC_2-2-7-12_n78	2	0.6
	7	0.6
	12	0.6
	n78	0.8
DC_2-7-13_n25	2	0.5
	7	0.5
	13	0.3
	n25	0.5
DC_2-7-13_n66 DC_2-7-7-13_n66 DC_2-2-7-7-13_n66	2	0.5
	7	0.5
	13	0.3
	n66	0.5
DC_2-7_n25-n66	2	0.5
	7	0.5
	n25	0.5
	n66	0.5
DC_2-7-28_n7	2	0.5
	7	0.5
	28	0.3
	n7	0.5
DC_2-7-28_n66	2	0.5
	7	0.5
	28	0.6
	n66	0.5
DC_2-7-28_n78	2	0.5
	7	0.5
	28	0.3
	n78	0.8
DC_2-7-29_n78 DC_2-7-7-29_n78	2	0.6
	7	0.5
	n78	0.8
DC_2-7_n38-n66 DC_2-7-7_n38-n66	2	0.5
	n66	0.5
DC_2-7_n38-n78 DC_2-7-7_n38-n78	2	0.6
	n78	0.8
DC_2-7-66_n2	2	0.5
	7	0.5
	66	0.5
	n2	0.5
DC_2-7-66_n7 DC_2-7-66-66_n7	2	0.5
	7	0.5
	66	0.5
	n7	0.5
DC_2-7-66_n25	2	0.5
	7	0.5
	66	0.5
	n25	0.5
DC_2-7-66_n28	2	0.5
	7	0.5
	66	0.5
	n28	0.6
DC_2-7-66_n38 DC_2-2-7-66_n38	2	0.5
	66	0.5
DC_2-7-66_n66, DC_2-7-7-66_n66	2	0.5
	7	0.5
	66	0.5
	n66
DC_2-7-66_n71, DC_2-2-7-66_n71	2	0.5
	7	0.5
	66	0.5
	n71	0.3
DC_2-7-66_n77	2	0.6
	7	0.5
	66	0.6
	n77	0.8
DC_2-7-66_n78 DC_2-7-7-66_n78 DC_2-7-66-66_n78 DC_2-7-7-66-66_n78 DC_2-7_n66-n78 DC_2-7-7_n66-n78	2	0.6
	7	0.5
	66	0.6
	n78	0.8
DC_2-7_n66-n77	2	0.6
	7	0.5
	n66	0.6
	n77	0.8
DC_2-7-71_n2	2	0.5
	7	0.5
	71	0.6
	n2	0.5
DC_2-7-71_n66 DC_2-2-7-71_n66	2	0.5
	7	0.5
	71	0.3
	n66	0.5
DC_2-7-71_n78 DC_2-2-7 -71_n78	2	0.6
	7	0.6
	71	0.6
	n78	0.8
DC_2-7_n71-n78	2	0.6
	7	0.6
	n71	0.6
	n78	0.8
DC_2-12_n2-n78	2	0.6
	12	0.6
	n2	0.6
	n78	0.8
DC_2-12-30_n2	2	0.5
	12	0.3
	30	0.3
	n2	0.5
DC_2-12-30_n66	2	0.5
	12	0.8
	30	0.3
	n66	0.5
DC_2-12-30_n77 DC_2-2-12-30_n77	2	0.6
	12	0.5
	30	0.3
	n77	0.8
DC_2-12-48_n5	2	0.6
	12	0.4
	48	0.8
	n5	0.8
DC_2-12-66_n5	2	0.5
	12	0.8
	66	0.5
	n5	0.8
DC_2-12-66_n2	2	0.5
	12	0.3
	66	0.5
	n2	0.5
DC_2-12-66_n30 DC_2-2-12-66_n30 DC_2-12-66-66_n30	2	0.5
	12	0.8
	66	0.5
	n30	0.3
DC_2-12-66_n66	2	0.5
	12	0.8
	66	0.5
	n66	0.5
DC_2-12-66_n77 DC_2-2-12-66_n77 DC_2-12-66-66_n77	2	0.6
	12	0.8
	66	0.6
	n77	0.8
DC_2-12-66_n78 DC_2-2-12-66_n78	2	0.6
	12	0.3
	66	0.6
	n78	0.8
DC_2-12_n66-n78	2	0.5
	12	0.3
	n66	0.5
	n78	0.8
DC_2-13_n25-n66	2	0.5
	13	0.3
	n25	0.5
	n66	0.5
DC_2-13-48_n77	2	0.6
	13	0.5
	48	0.6
	n77	0.8
DC_2-13-66_n2	2	0.5
	13	0.3
	66	0.5
	n2	0.5
DC_2-13-66_n5	2	0.5
	13	0.3
	66	0.5
	n5	0.3
DC_2-13-66_n48	2	0.6
	13	0.3
	66	0.6
	n48	0.8
DC_2-13-66_n66	2	0.5
	13	0.3
	66	0.5
	n66
DC_2-13-66_n77 DC_2-2-13-66_n77 DC_2-2-13-66-66_n77 DC_2-13-66-66_n77	2	0.5
	13	0.3
	66	0.5
	n77	0.8
DC_2-13_n66-n77	2	0.6
	13	0.3
	n66	0.6
	n77	0.8
DC_2-14-30_n2	2	0.5
	14	0.3
	30	0.5
	n2	0.5
DC_2-14-30_n66	2	0.5
	14	0.3
	30	0.3
	n66	0.5
DC_2-14-30_n77 DC_2-2-14-30_n77	2	0.6
	14	0.5
	30	0.3
	n77	0.8
DC_2-14-66_n2 DC_2-14-66-66_n2	2	0.5
	14	0.3
	66	0.5
	n2	0.5
DC_2-14-66_n30 DC_2-2-14-66_n30 DC_2-14-66-66_n30	2	0.5
	14	0.3
	66	0.5
	n30	0.3
DC_2-14-66_n66 DC_2-2-14-66_n66	2	0.5
	14	0.3
	66	0.5
	n66	0.5
DC_2-14-66_n77 DC_2-2-14-66_n77 DC_2-14-66-66_n77	2	0.6
	14	0.6
	66	0.6
	n77	0.8
DC_2-28-66_n7	2	0.5
	28	0.6
	66	0.5
	n7	0.5
DC_2-28-66_n66	2	0.5
	28	0.6
	66	0.5
	n66	0.5
DC_2-29-30_n2	2	0.5
	30	0.3
	n2	0.5
DC_2-29-30_n66	2	0.5
	30	0.3
	n66	0.5
DC_2-29-30_n77 DC_2-2-29-30_n77	2	0.6
	30	0.3
	n77	0.8
DC_2-29-66_n2 DC_2-29-66-66_n2	2	0.5
	66	0.5
	n2	0.5
DC_2-29-66_n30 DC_2-2-29-66_n30 DC_2-29-66-66_n30	2	0.5
	66	0.5
	n30	0.3
DC_2-29-66_n66	2	0.5
	66	0.5
	n66	0.5
DC_2-29-66_n77	2	0.6
	66	0.6
	n77	0.8
DC_2-29-66_n78	2	0.6
	66	0.6
	n78	0.8
DC_2-30-(n)5 DC_2-2-30-(n)5	2	0.5
	5	0.3
	30	0.3
	n5	0.3
DC_2-30-66_n2 DC_2-30-66-66_n2	2	0.5
	30	0.3
	66	0.5
	n2	0.5
DC_2-30-66_n5	2	0.5
	30	0.3
	66	0.5
	n5	0.3
DC_2-30-66_n66	2	0.5
	30	0.3
	66	0.5
	n66	0.5
DC_2-30-66_n77 DC_2-2-30-66_n77 DC_2-30-66-66_n77	2	0.6
	30	0.3
	66	0.6
	n77	0.8
DC_2-46_n41-n66	2	0.5
	n41	0.5
	n66	0.5
DC_2-46_n41-n71	2	0.5
	n41	0.5
	n71	0.6
DC_2-46-48_n2	2	0.6
	48	0.8
	n2	0.6
DC_2-46-48_n5	2	0.6
	48	0.8
	n5	0.3
DC_2-46-48_n66	2	0.6
	48	0.8
	n66	0.6
DC_2-46-66_n5	2	0.5
	66	0.5
	n5	0.3
DC_2-46-66_n41	2	0.5
	66	0.5
	n41	0.81
		1.32
DC_2-46-66_n71	66	0.3
	n71	0.3
DC_2-48-66_n77	2	0.6
	48	0.8
	66	0.6
	n77	0.8
DC_2-48_n48-n66	2	0.6
	48	0.8
	n48	0.8
	n66	0.6
DC_2-48_(n)5	2	0.6
	5	0.3
	48	0.8
	n5	0.3
DC_2-46_n66_n71	2	0.5
	n66	0.5
	n71	0.3
DC_2-48-66_n2	2	0.6
	48	0.8
	66	0.6
	n2	0.6
DC_2-48-66_n5	2	0.6
	48	0.8
	66	0.6
DC_2-48-66_n12	2	0.6
	48	0.8
	66	0.6
	n12	0.3
DC_2-48-66_n66	2	0.6
	48	0.8
	66	0.6
	n66	0.6
DC_2-48-66_n71	2	0.6
	48	0.8
	66	0.6
	n71	0.3
DC_2-66_n2-n77 DC_2-66-66_n2-n77	2	0.6
	66	0.6
	n2	0.6
	n77	0.8
DC_2-66_n2-n78	2	0.6
	66	0.6
	n2	0.6
	n78	0.8
DC_2-66_(n)5 DC_2-2-66_(n)5 DC_2-66-66_(n)5	2	0.5
	5	0.3
	66	0.5
	n5	0.3
DC_2-66_n5-n77	2	0.6
	66	0.6
	n5	0.3
	n77	0.8
DC_2-66_n25-n66	2	0.5
	66	0.5
	n25	0.5
	n66	0.5
DC_2-66_n38-n78	2	0.6
	66	0.6
	n38	0.9
	n78	0.8
DC_2-66_n41-n71	2	0.5
	66	0.5
	n41	0.81
		1.32
	n71	0.8
DC_2-66_n66-n77	2	0.6
	66	0.6
	n66	0.6
	n77	0.8
DC_2-66_n66-n78	2	0.6
	66	0.6
	n66	0.6
	n78	0.8
DC_2-66-71_n2	2	0.5
	66	0.5
	71	0.3
	n2	0.5
DC_2-66-71_n38 DC_2-2-66-71_n38	2	0.5
	66	0.5
	71	0.3
	n38	0.5
DC_2-66-71_n41 DC_2-2-66-71_n41	2	0.5
	66	0.5
	71	0.8
	n41	0.81
		1.32
DC_2-66-71_n66	2	0.5
	66	0.5
	71	0.3
	n66	0.5
DC_2-66-(n)71	2	0.5
	66	0.5
	71	0.3
	n71
DC_2-66-71_n71	2	0.5
	66	0.5
	71	0.3
	n71
DC_2-66-71_n78 DC_2-2-66-71_n78	2	0.5
	66	0.5
	71	0.3
	n78	0.5
DC_2-66_n71-n78	2	0.5
	66	0.5
	n71	0.3
	n78	0.5
DC_2-71_n2-n78	2	0.6
	71	0.6
	n2	0.6
	n78	0.8
DC_2-71_n66-n78	2	0.5
	71	0.3
	n66	0.5
	n78	0.5
DC_3_n1-n40-n78	3	0.6
	n1	0.6
	n40	0.5
	n78	0.8
DC_3_n1-n77-n79	3	0.6
	n1	0.6
	n77	0.8
	n79	0.5
DC_3_n1-n78-n79	3	0.6
	n1	0.3
	n78	0.8
	n79	0.5
DC_3-5-7_n77	3	0.6
	5	0.6
	7	0.6
	n77	0.8
DC_3-5-7_n78 DC_3-5-7-7_n78	3	0.6
	5	0.6
	7	0.6
	n78	0.8
DC_3_n5-n40-n78	3	0.6
	n5	0.6
	n40	0.5
	n78	0.8
DC_3-5-41_n79	3	0.5
	5	0.33
	41	0.34/0.85
DC_3-7_n1-n8,	3	0.6
DC_3-3-7_n1-n8,	7	0.6
DC_3-7-7_n1-n8,	n1	0.6
DC_3-3-7-7_n1-n8	n8	0.6
DC_3-7_n1-n40	3	0.6
	7	0.8
	n1	0.6
	n40	0.9
DC_3-7_n1-n78	3	0.7
	7	0.7
	n1	0.7
	n78	0.8
DC_3-7_n3-n78	3	0.6
	7	0.6
	n3	0.6
	n78	0.8
DC_3-7_n7-n78	3	0.6
	7	0.6
	n7	0.6
	n78	0.8
DC_3-7-8_n1 DC_3-3-7-8_n1 DC_3-7-7-8_n1 DC_3-3-7-7-8_n1	3	0.6
	7	0.6
	8	0.6
	n1	0.6
DC_3-7-8_n28	3	0.5
	7	0.5
	8	0.6
	n28	0.5
DC_3-7-8_n40	3	0.5
	7	0.5
	8	0.6
	n40	0.6
DC_3-7-8_n77	3	0.6
	7	0.6
	8	0.6
	n77	0.8
DC_3-7-8_n78 DC_3-3-7-8_n78 DC_3-7-7-8_n78 DC_3-3-7-7-8_n78	3	0.6
DC_3-7_n8-n78, DC_3-3-7_n8-n78, DC_3-7-7_n8-n78, DC_3-3-7-7_n8-n78	7	0.6
	8 or n8	0.6
	n78	0.8
DC_3-7-20_n1	3	0.6
	7	0.6
	20	0.3
	n1	0.6
DC_3-7-20_n8	3	0.6
	7	0.6
	20	0.6
	n8	0.6
DC_3-7-20_n28	3	0.5
	7	0.5
	20	0.6
	n28	0.5
DC_3-7-20_n38	3	0.5
	20	0.3
DC_3-7-20_n78	3	0.6
	7	0.6
	20	0.3
	n78	0.8
DC_3-7-28_n1 DC_3-7-7-28_n1	3	0.6
	7	0.6
	28	0.5
	n1	0.6
DC_3-7-28_n3	3	0.5
	7	0.5
	28	0.3
	n3	0.5
DC_3-7-28_n5	3	0.5
	7	0.5
	28	0.4
	n5	0.4
DC_3-7-28_n7	3	0.5
	7	0.5
	28	0.3
	n7	0.5
DC_3-7-28_n40	3	0.6
	7	0.8
	28	0.3
	n40	0.9
DC_3-7-28_n78	3	0.6
	7	0.6
	28	0.6
	n78	0.8
DC_3-7_n28-n78	3	0.6
	7	0.6
	n28	0.6
	n78	0.8
DC_3-7-32_n1	3	0.6
	7	0.6
	n1	0.6
DC_3-7-32_n28	3	0.5
	7	0.5
	n28	0.3
DC_3-7-32_n78	3	0.6
	7	0.6
	n78	0.8
DC_3-7-38_n28	3	0.3
	n28	0.3
DC_3-7-40_n1	3	0.6
	7	0.8
	40	0.9
	n1	0.6
DC_3-7-40_n78	3	0.6
	7	0.5
	40	0.39
	n78	0.89
DC_3-7_n40-n78	3	0.6
	7	0.5
	n40	0.5
	n78	0.8
DC_3-7_SUL_n78-n80	7	0.6
	3, n80	0.6
	n78	0.8
DC_3-8_n1-n28	3	0.3
	8	0.6
	n1	0.3
	n28	0.6
DC_3-3-8_n1-n78 DC_3_n1-n8-n78	3	0.5
	8 or n8	0.5
	n1	0.5
	n40	0.6
DC_3-8_n1-n78 DC_3-3-8_n1-n78	3	0.6
	8	0.6
	n1	0.6
	n78	0.8
DC_3-8-11_n28	3	0.8
	8	0.6
	11	0.9
	n28	0.6
DC_3-8-11_n77	3	0.8
	8	0.6
	11	0.9
	n77	0.8
DC_3-8-20_n1	3	0.3
	8	0.4
	20	0.4
	n1	0.3
DC_3-8-20_n78	3	0.6
	8	0.6
	20	0.6
	n78	0.8
DC_3-8_n28-n77	3	0.6
	8	0.6
	n28	0.5
	n77	0.8
DC_3-8-28_n78	3	0.6
	8	0.6
	28	0.5
	n78	0.8
DC_3-8_n28-n78	3	0.6
	8	0.6
	n28	0.5
	n78	0.8
DC_3-8-32_n1	3	0.5
	8	0.3
	n1	0.8
DC_3-8-32_n28	3	0.3
	8	0.3
	n28	0.6
DC_3-8-32_n78	3	0.8
	8	0.6
	n78	0.8
DC_3-8-40_n1	3	0.5
	8	0.5
	40	0.6
	n1	0.5
DC_3-8-40_n78	3	0.6
	8	0.6
	40	0.39
	n78	0.89
DC_3-8_n40-n78	3	0.6
	8	0.3
	n40	0.5
	n78	0.8
DC_3-8_n40-n79	3	0.5
	8	0.3
	n40	0.5
DC_3-8-42_n77	3	0.6
	8	0.6
	42	0.8
	n77	0.8
DC_3-8_n77-n79	3	0.6
	8	0.6
	n77	0.8
	n79	0.5
DC_3-8_SUL_n78-n80	3, n80	0.6
	8	0.6
	n78	0.8
DC_3-11_n28-n77	3	0.8
	11	0.9
	n28	0.6
	n77	0.8
DC_3-18_n3-n41	3	0.6
	18	0.3
	n3	0.6
	n41	0.34/0.85
DC_3-18_n3-n77	3	0.6
	18	0.3
	n3	0.6
	n77	0.8
DC_3-18_n3-n78	3	0.6
	18	0.3
	n3	0.6
	n78	0.8
DC_3-18_n28-n41	3	0.6
	18	0.3
	n28	0.5
	n41	0.34/0.85
DC_3-18_n28-n77	3	0.6
	18	0.3
	n28	0.5
	n77	0.8
DC_3-18_n28-n78	3	0.6
	18	0.3
	n28	0.5
	n78	0.8
DC_3-18_n41-n77	3	0.6
	18	0.3
	n41	0.5
	n77	0.8
DC_3-18_n41-n78	3	0.6
	18	0.3
	n41	0.6
	n78	0.8
DC_3-18-42_n77	3	0.3
	18	0.3
	42	0.8
	n77	0.8
DC_3-18-42_n78	3	0.3
	18	0.3
	42	0.8
	n78	0.8
DC_3-18-42_n79	3	0.6
	18	0.3
	42	0.8
DC_3-19_n1-n77	3	0.6
	19	0.3
	n1	0.6
	n77	0.8
DC_3-19_n1-n78	3	0.6
	19	0.3
	n1	0.6
	n78	0.8
DC_3-19_n1-n79	3	0.3
	19	0.3
	n1	0.3
DC_3-19-21_n77	3	0.8
	19	0.3
	21	0.9
	n77	0.8
DC_3-19-21_n78	3	0.8
	19	0.3
	21	0.9
	n78	0.8
DC_3-19-21_n79	3	0.8
	19	0.3
	21	0.9
DC_3-19-42_n1	3	0.6
	19	0.3
	42	0.8
DC_3-19-42_n77	3	0.6
	19	0.3
	42	0.8
	n77	0.8
DC_3-19-42_n78	3	0.6
	19	0.3
	42	0.8
	n78	0.8
DC_3-19-42_n79	3	0.6
	19	0.3
	42	0.8
DC_3-19_n77-n79	3	0.6
	19	0.3
	n77	0.8
DC_3-19_n78-n79	3	0.6
	19	0.3
	n78	0.8
DC_3-20_n1-n7	3	0.6
	20	0.3
	n1	0.6
	n7	0.6
DC_3-20_n1-n28	3	0.3
	20	0.3
	n1	0.6
	n28	0.6
DC_3-20_n1-n78	3	0.6
	20	0.3
	n1	0.6
	n78	0.8
DC_3-20_n1-n28	3	0.6
	20	0.3
	n1	0.6
	n28	0.8
DC_3-20_n7-n28	3	0.5
	20	0.5
	n7	0.5
	n28	0.5
DC_3-20_n8-n78	3	0.6
	20	0.6
	n8	0.6
	n78	0.8
DC_3-20-28_n1	3	0.3
	20	0.6
	28	0.6
	n1	0.3
DC_3-20_n28-n75	3	0.3
	20	0.5
	n28	0.5
DC_3-20-28_n78	3	0.6
	20	0.6
	28	0.5
	n78	0.8
DC_3-20_n28-n78	3	0.6
	20	0.6
	n28	0.6
	n78	0.8
DC_3-20-32_n1	3	0.5
	20	0.3
	n1	0.5
DC_3-20-32_n28	3	0.3
	20	0.5
	n28	0.5
DC_3-20-32_n78	3	0.5
	20	0.3
	n78	0.8
DC_3-20-38_n78 DC_3-20_n38-n78	3	0.6
	20	0.6
	38 or n38	0.5
	n78	0.8
DC_3-20-40_n78	3	0.6
	20	0.5
	40	0.36
	n78	0.86
DC_3-20_n41-n78	3	0.5
	20	0.3
	n41	0.5
	n78	0.8
DC_3_20_SUL_n78-n80	3, n80	0.5
	20	0.3
	n78	0.8
DC_3-21_n1-n77	3	0.8
	21	0.9
	n1	0.6
	n77	0.8
DC_3-21_n1-n78	3	0.8
	21	0.9
	n1	0.6
	n78	0.8
DC_3-21_n1-n79	3	0.8
	21	0.9
	n1	0.3
DC_3-21_n28-n77	3	0.8
	21	0.9
	n28	0.5
	n77	0.8
DC_3-21_n28-n78	3	0.8
	21	0.9
	n28	0.5
	n78	0.8
DC_3-21_n28-n79	3	0.8
	21	0.9
	n28	0.3
DC_3-21-42_n1	3	0.8
	21	0.9
	42	0.8
	n1	0.6
DC_3-21-42_n77	3	0.8
	21	0.9
	42	0.8
	n77	0.8
DC_3-21-42_n78	3	0.8
	21	0.9
	42	0.8
	n78	0.8
DC_3-21-42_n79	3	0.8
	21	0.9
	42	0.8
DC_3-21_n77-n79	3	0.8
	21	0.9
	n77	0.8
DC_3-21_n78-n79	3	0.8
	21	0.9
	n78	0.8
DC_3-28_n1-n40	3	0.5
	28	0.6
	n1	0.5
	n40	0.5
DC_3-28_n1-n78	3	0.6
	28	0.6
	n1	0.6
	n78	0.8
DC_3-28_n3-n78	3	0.5
	28	0.3
	n3	0.5
	n78	0.8
DC_3-28_n7-n78 DC_3-3-28_n7-n78	3	1
	28	0.5
	n7	0.8
	n78	0.8
DC_3-28-32_n1	3	0.3
	28	0.6
	n1	0.3
DC_3-28-40_n78	3	0.6
	28	0.5
	40	0.36
	n78	0.86
DC_3-28_n40-n78	3	0.6
	28	0.5
	n40	0.36
	n78	0.86
DC_3-28-41_n78	3	1
	28	0.5
	41	0.34/0.85
	n78	0.8
DC_3-28-42_n77	3	0.6
	28	0.5
	42	0.8
	n77	0.8
DC_3-28-42_n78	3	0.6
	28	0.5
	42	0.8
	n78	0.8
DC_3-28-42_n79	3	0.6
	28	0.5
	42	0.8
DC_3_n28-n77-n79	3	0.6
	n28	0.5
	n77	0.8
	n79	0.5
DC_3_n28-n78-n79	3	0.6
	n28	0.5
	n78	0.8
	n79	0.5
DC_3-32_n1-n28	n1	0.3
	3	0.3
	n28	0.6
DC_3-32-38_n28	3	0.7
	38	0.7
	n28	0.6
DC_3-40_n1-n78	n1	0.5
	3	0.6
	40	0.36
	n78	0.86
DC_3-41_n3-n41	3	0.5
	41	0.34/0.85
	n3	0.5
	n41	0.34/0.85
DC_3-41_n3-n77	3	0.6
	41	0.34/0.85
	n3	0.6
	n77	0.8
DC_3-41_n3-n78	3	0.6
	41	0.34/0.85
	n3	0.6
	n78	0.8
DC_3-41_n28-n41	3	0.6
	41	0.34/0.84
	n28	0.5
	n41	0.34/0.84
DC_3-41_n28-n77	3	0.6
	41	0.34/0.85
	n28	0.5
	n77	0.8
DC_3-41_n28-n78	3	1.0
	41	0.34/0.85
	n28	0.5
	n78	0.8
DC_3-41_n41-n77	3	0.6
	41	0.34/0.85
	n41	0.34/0.85
	n77	0.8
DC_3-41_n41-n78	3	0.6
	41	0.34/0.85
	n41	0.34/0.85
	n78	0.8
DC_3-41-42_n77	3	1
	41	0.34/0.85
	42	0.8
	n77	0.8
DC_3-41-42_n78	3	1
	41	0.34/0.85
	42	0.8
	n78	0.8
DC_3-41-42_n79	3	1
	41	0.34/0.85
	42	0.8
DC_3-42_n1-n77	3	0.6
	42	0.8
	n1	0.6
	n77	0.8
DC_3-42_n1-n78	3	0.6
	42	0.8
	n1	0.6
	n78	0.8
DC_3-42_n1-n79	3	0.6
	42	0.8
	n1	0.6
DC_3-42_n28-n77	3	0.6
	42	0.8
	n28	0.8
	n77	0.8
DC_3-42_n77-n79	3	0.6
	42	0.8
	n77	0.8
DC_3-42_n78-n79	3	0.6
	42	0.8
	n78	0.8
DC_5-7_n2-n78	5	0.6
	7	0.6
	n2	0.6
	n78	0.8
DC_5-7-66_n2	5	0.3
	7	0.5
	66	0.5
	n2	0.5
DC_5-7-66_n7 DC_5-7-66-66_n7	5	0.3
	7	0.5
	66	0.5
	n7	0.5
DC_5-7-66_n66	5	0.3
DC_5-7-7-66_n66	7	0.5
	66	0.5
	n66
DC_5-7_n66-n78	5	0.5
	7	0.8
	n66	1
	n78	0.8
DC_5-7-66_n78	5	0.3
	7	0.5
	66	0.5
	n78	0.8
DC_5-30-66_n2	5	0.3
	30	0.3
	66	0.5
	n2	0.5
DC_5-30-66_n66	5	0.3
	30	0.3
	66	0.5
	n66	0.5
DC_5-30-66_n77 DC_5-30-66-66_n77	5	0.6
	30	0.3
	66	0.6
	n77	0.8
DC_5-48_(n)12	5	0.8
	12	0.4
	48	0.3
	n12	0.8
DC_5-48-66_n12	5	0.8
	48	0.8
	66	0.6
	n12	0.4
DC_5-48-66_n71	5	0.5
	48	0.8
	66	0.6
	n71	0.5
DC_5-48-66_n77	5	0.6
	48	0.8
	66	0.6
	n77	0.8
DC_5-66_n2-n77 DC_5-66-66_n2-n77	5	0.6
	66	0.6
	n2	0.6
	n77	0.8
DC_5-66_n2-n78	5	0.3
	66	0.5
	n2	0.5
	n78	0.8
DC_5-66_n5-n77 DC_5-66-66_n5-n77	5	0.6
	66	0.6
	n5	0.6
	n77	0.8
DC_5-66_(n)12	5	0.3
	12	0.8
	66	0.8
	n12	0.8
DC_5-66_n66-n77	5	0.6
	66	0.6
	n66	0.6
	n77	0.8
DC_7-8_n1-n40	7	0.8
	8	0.6
	n1	0.6
	n40	0.9
DC_7-8_n1-n78 DC_7-7-8_n1-n78	7	0.6
	8	0.6
	n1	0.6
	n78	0.8
DC_7-8-20_n1	7	0.6
	8	0.6
	20	0.6
	n1	0.5
DC_7-8-20_n3	7	0.5
	8	0.6
	20	0.4
	n3	0.5
DC_7-8_n28-n78	7	0.5
	8	0.6
	n28	0.5
	n78	0.8
DC_7-8-32_n1	7	0.7
	8	0.6
	n1	0.7
DC_7-8-32_n78	7	0.7
	8	0.6
	n78	0.8
DC_7-8-38_n1	8	0.5
	n1	0.5
DC_7-8-40_n1	7	0.8
	8	0.6
	40	0.9
	n1	0.6
DC_7-8-40_n78	7	0.5
	8	0.6
	40	0.39
	n78	0.89
DC_7-8_n40-n78	7	0.5
	8	0.3
	n40	0.5
	n78	0.8
DC_7-12_n2-n78	7	0.6
	12	0.6
	n2	0.6
	n78	0.8
DC_7-12-66_n2	7	0.5
	12	0.8
	66	0.5
	n2	0.5
DC_7-12-66_n78	7	0.8
	12	0.5
	66	1
	n78	0.8
DC_7-12_n66-n78	7	0.8
	12	0.5
	n66	1
	n78	0.8
DC_7-13_n25-n66	7	0.5
	13	0.3
	n25	0.5
	n66	0.5
DC_7-13-66_n66	7	0.5
	13	0.3
	66	0.5
	n66
DC_7-20_n1-n78	7	0.7
	20	0.4
	n3	0.6
	n78	0.8
DC_7-20_n3-n38	7	0.5
	20	0.3
	n3	0.5
	n38	0.5
DC_7-20_n3-n78	7	0.5
	20	0.6
	n3	0.5
	n78	0.8
DC_7-20_n8-n78	7	0.5
	20	0.6
	n8	0.6
	n78	0.8
DC_7-20-28_n1	7	0.6
	20	0.6
	28	0.6
	n1	0.5
DC_7-20-28_n3	7	0.5
	20	0.6
	28	0.5
	n3	0.5
DC_7-20_n28-n78	7	0.3
	20	0.6
	n28	0.6
	n78	0.8
DC_7-20-32_n1	7	0.6
	20	0.3
	n1	0.5
DC_7-20-32_n3	7	0.7
	20	0.3
	n3	0.3
DC_7-20-32_n8	7	0.7
	20	0.6
	n8	0.6
DC_7-20-32_n28	7	0.3
	20	0.5
	n28	0.7
DC_7-20-32_n78	7	0.7
	20	0.5
	n78	0.8
DC_7-20-38_n1	20	0.3
	n1	0.5
DC_7-20-38_n3	7	0.5
	20	0.5
	38	0.5
	n3	0.5
DC_7-20-38_n8	20	0.6
	n8	0.6
DC_7-20-38_n78	20	0.6
	n78	0.8
DC_7-28_n1-n40	7	0.3
	28	0.2
	n40	0.8
DC_7-28_n1-n78	7	0.6
	28	0.6
	n1	0.6
	n78	0.8
DC_7-28_n3-n78	7	0.8
	28	0.5
	n3	1
	n78	0.8
DC_7-28_n7-n78	7	0.3
	28	0.3
	n7	0.3
	n78	0.8
DC_7-28-66_n7	7	0.5
	28	0.6
	66	0.5
	n7	0.5
DC_7-28-66_n66	7	0.5
	28	0.6
	66	0.5
	n66	0.5
DC_7-28-32_n1	7	0.7
	28	0.6
	n1	0.7
DC_7-28-32_n3	7	0.7
	28	0.3
	n3	0.7
DC_7-28-38_n1	28	0.6
	n1	0.5
DC_7-28_n40-n78	7	0.5
	28	0.3
	n40	0.5
	n78	0.8
DC_7-29-66_n78	7	0.5
	66	0.6
	n78	0.8
DC_7-38_n3-n78	n3	0.6
	n78	0.8
DC_7-40_n1-n78	7	0.5
	40	0.56
	n1	0.6
	n78	0.86
DC_7-66_n2-n78	7	0.5
	66	0.6
	n2	0.6
	n78	0.8
DC_7-66_n25-n66	7	0.5
	66	0.5
	n25	0.5
	n66	0.5
DC_7-66_n38-n78 DC_7-7-66_n38-n78	66	0.6
	n78	0.8
DC_7-66_n66-n77	7	0.5
	66	0.6
	n66	0.6
	n77	0.8
DC_7-66_n66-n78 DC_7-7-66_n66-n78	7	0.5
	66	0.6
	n66	0.6
	n78	0.8
DC_7-66-71_n2	7	0.5
	66	0.5
	71	0.3
	n2	0.5
DC_7-66-71_n78	7	0.6
	66	0.6
	71	0.3
	n78	0.8
DC_7-66_n71-n78	7	0.6
	66	0.6
	n71	0.3
	n78	0.8
DC_7-71_n2-n78	7	0.6
	71	0.6
	n2	0.6
	n78	0.8
DC_7-71_n66-n78	7	0.6
	71	0.3
	n66	0.6
	n78	0.8
DC_8_n1-n3-n77	8	0.6
	n1	0.6
	n3	0.6
	n77	0.8
DC_8_n3-n28-n77	8	0.6
	n3	0.6
	n28	0.5
	n77	0.8
DC_8_n3-n28-n79	8	0.6
	n3	0.5
	n28	0.3
	n79	0.8
DC_8_n3-n77-n79	8	0.6
	n3	0.6
	n77	0.8
	n79	0.8
DC_8-11_n1-n77	8	0.6
	11	0.4
	n1	0.6
	n77	0.8
DC_8-11_n3-n28	8	0.6
	11	0.8
	n3	0.9
	n28	0.6
DC_8-11_n3-n77	8	0.6
	11	0.8
	n3	0.9
	n77	0.8
DC_8-11_n3-n79	8	0.3
	11	0.8
	n3	0.9
	n79	0.8
DC_8-11_n28-n77	8	0.6
	11	0.4
	n28	0.6
	n77	0.8
DC_8-11_n77-n79	8	0.6
	11	0.4
	n77	0.8
	n79	0.5
DC_8-20-28_n78	8	0.6
	20	0.6
	28	0.5
	n78	0.8
DC_8-20-32_n1	8	0.4
	20	0.4
	n1	0.5
DC_8-20-38_n1	8	0.6
	20	0.5
	38	0.5
	n1	0.5
DC_8_n28-n77-n79	8	0.6
	n28	0.5
	n77	0.8
	n79	0.8
DC_8-32-38_n1	8	0.3
	38	0.5
	n1	0.5
DC_8_n39-n40-n41	8	0.3
	n39	0.3
	n40	0.3
	n41	0.3
DC_8_n39-n40-n79	8	0.3
	n39	0.3
	n40	0.3
	n79	0.8
DC_8_n40-n41-n79	8	0.3
	n40	0.3
	n41	0.3
DC_8-40_n1-n78	8	0.3
	40	0.56
	n1	0.5
	n78	0.86
DC_8-41_n1-n3	8	0.3
	41	0.54
		0.85
	n1	0.5
	n3	0.5
DC_8-41_n1-n77	8	0.6
	41	0.5
	n1	0.6
	n77	0.8
DC_8-41_n3-n77	8	0.6
	41	0.310
		0.811
	n3	0.6
	n77	0.8
DC_8-42_n1-n3	8	0.6
	42	0.8
	n1	0.3
	n3	0.6
DC_8-42_n1-n77	8	0.6
	42	0.8
	n1	0.6
	n77	0.8
DC_8-42_n3-n28	8	0.6
	42	0.8
	n3	0.6
	n28	0.8
DC_8-42_n3-n77	8	0.6
	42	0.8
	n3	0.6
	n77	0.8
DC_8-42_n28-n77	8	0.6
	42	0.8
	n28	0.8
	n77	0.8
DC_11_n3-n28-n77	11	0.8
	n3	0.9
	n28	0.6
	n77	0.8
DC_11_n3-n77-n79	11	0.8
	n3	0.9
	n77	0.8
	n79	0.8
DC_12-30-66_n2	12	0.8
	30	0.3
	66	0.5
	n2	0.5
DC_12-30-66_n66	12	0.8
	30	0.3
	66	0.5
	n66	0.5
DC_12-30-66_n77 DC_12-30-66-66_n77	12	0.8
	30	0.3
	66	0.6
	n77	0.8
DC_12-48_(n)5	5	0.8
	12	0.4
	48	0.3
	n5	0.8
DC_12-48-66_n5	12	0.8
	48	0.8
	66	0.8
	n5	0.3
DC_12-66_(n)5	5	0.3
	12	0.8
	66	0.8
	n5	0.3
DC_12-66_n2-n78	12	0.3
	66	0.5
	n 2	0.5
	n78	0.8
DC_13-48-66_n77	13	0.3
	48	0.8
	66	0.6
	n77	0.8
DC_13-66_n2-n77	13	0.3
	66	0.6
	n2	0.6
	n77	0.8
DC_13-66_n5-n48	13	0.4
	66	0.6
	n5	0.8
	n48	0.8
DC_13-66_n5-n77 DC_13-66-66_n5-n77	13	0.5
	66	0.6
	n5	0.6
	n77	0.8
DC_13-66_n66-n77	13	0.3
	66	0.6
	n66	0.6
	n77	0.8
DC_14-30-66-n2	14	0.3
	30	0.3
	66	0.5
	n2	0.5
DC_14-30-66_n66	14	0.5
	30	0.3
	66	0.5
	n66	0.5
DC_14-30-66_n77 DC_14-30-66-66_n77	14	0.6
	30	0.3
	66	0.6
	n77	0.8
DC_18-41_n3-n77	18	0.3
	41	0.34/0.85
	n3	0.6
	n77	0.8
DC_18-41_n3-n78	18	0.3
	41	0.34/0.85
	n3	0.6
	n78	0.8
DC_19_n1-n77-n79	19	0.3
	n1	0.6
	n77	0.8
	n79	0.5
DC_19_n1-n78-n79	19	0.3
	n1	0.3
	n78	0.8
	n79	0.5
DC_19-21_n1-n77	19	0.3
	21	0.4
	n1	0.3
	n77	0.8
DC_19-21_n1-n78	19	0.3
	21	0.4
	n1	0.6
	n78	0.8
DC_19-21_n1-n79	19	0.3
	21	0.4
	n1	0.3
DC_19-21-42_n1	19	0.3
	21	0.4
	42	0.8
	n1	0.3
DC_19-21-42_n77	19	0.3
	21	0.4
	42	0.8
	n77	0.8
DC_19-21-42_n78	19	0.3
	21	0.4
	42	0.8
	n78	0.8
DC_19-21-42_n79	19	0.3
	21	0.4
	42	0.8
DC_19-21_n77-n79	19	0.3
	21	0.4
	n77	0.8
DC_19-21_n78-n79	19	0.3
	21	0.4
	n78	0.8
DC_19-42_n1-n77	19	0.3
	42	0.8
	n1	0.6
	n77	0.8
DC_19-42_n1-n78	19	0.3
	42	0.8
	n1	0.3
	n78	0.8
DC_19-42_n1-n79	19	0.3
	42	0.8
	n1	0.3
DC_19-42_n77-n79	19	0.3
	42	0.8
	n77	0.8
DC_19-42_n78-n79	19	0.3
	42	0.8
	n78	0.8
DC_20-28-32_n1	20	0.6
	28	0.6
	n1	0.5
DC_20-28-32_n3	20	0.5
	28	0.6
	n3	0.5
DC_20-28-38_n1	20	0.6
	28	0.6
	38	0.5
	n1	0.5
DC_20-32_n1-n28	n1	0.3
	20	0.6
	n28	0.7
DC_20-32-38_n1	20	0.3
	38	0.5
	n1	0.5
DC_20-38_n3-n78	20	0.6
	38	0.5
	n3	0.6
	n78	0.8
DC_21_n1-n77-n79	21	0.4
	n1	0.6
	n77	0.8
	n79	0.5
DC_21_n1-n78-n79	21	0.4
	n1	0.6
	n78	0.8
	n79	0.5
DC_21-28-42_n77	21	0.4
	28	0.5
	42	0.8
	n77	0.8
DC_21-28-42_n78	21	0.4
	28	0.5
	42	0.8
	n78	0.8
DC_21-28-42_n79	21	0.4
	28	0.5
	42	0.8
DC_21_n28-n77-n79	21	0.4
	n28	0.5
	n77	0.8
	n79	0.5
DC_21_n28-n78-n79	21	0.4
	n28	0.5
	n78	0.8
DC_21-42_n1-n77	21	0.4
	42	0.8
	n1	0.6
	n77	0.8
DC_21-42_n1-n78	21	0.4
	42	0.8
	n1	0.3
	n78	0.8
DC_21-42_n1-n79	21	0.4
	42	0.8
	n1	0.3
DC_21-42_n77-n79	21	0.4
	42	0.8
	n77	0.8
DC_21-42_n78-n79	21	0.4
	42	0.8
	n78	0.8
DC_28-32-38_n1	28	0.7
	38	0.5
	n1	0.5
DC_28-41-42_n78	28	0.5
	41	0.3
	42	0.8
	n78	0.8
DC_29-30-66_n2 DC_29-30-66-66_n2	30	0.3
	66	0.5
	n2	0.5
DC_29-30-66_n66	30	0.3
	66	0.5
	n66	0.5
DC_29-30-66_n77	30	0.3
	66	0.6
	n77	0.8
DC_30-66-(n)5	5	0.3
	30	0.3
	66	0.5
	n5	0.3
DC_42_n1-n77-n79	42	0.8
	n1	0.6
	n77	0.8
DC_42_n1-n78-n79	42	0.8
	n1	0.3
	n78	0.8
DC_42_n3-n28-n77	42	0.8
	n3	0.6
	n28	0.8
	n77	0.8
DC_46-66_n25-n41	66	0.5
	n25	0.5
	n41	0.41
		0.92
DC_46-66_n25-n71	66	0.5
	n25	0.5
	n71	0.3
DC_46-66_n41-n71	66	0.5
	n41	0.41
		0.92
	n71	0.6
DC_48-66_n25-n48	48	0.8
	66	0.6
	n25	0.6
	n48	0.8
DC_66-71_n2-n78	66	0.5
	71	0.3
	n2	0.5
	n78	0.5
NOTE 1: The requirement is applied for UE transmitting on the frequency range of 2545 – 2690 MHz. NOTE 2: The requirement is applied for UE transmitting on the frequency range of 2496 – 2545 MHz. NOTE 3: The values in the table reflect what can be achieved with the present state of the art technology. They shall be reconsidered when the state of the art technology progresses. NOTE 4: The requirement is applied for UE transmitting on the frequency range of 2515 – 2690 MHz. NOTE 5: The requirement is applied for UE transmitting on the frequency range of 2496 – 2515 MHz. NOTE 6: Only applicable for UE supporting inter-band carrier aggregation with uplink in one E-UTRA band and without simultaneous Rx/Tx. NOTE 7: Void. NOTE 8: Void. NOTE 9: Only applicable for UE supporting inter-band carrier aggregation with uplink in one NR band and without simultaneous Rx/Tx NOTE 10: The requirement is applied for UE transmitting on the frequency range of 2515 – 2690 MHz. NOTE 11: The requirement is applied for UE transmitting on the frequency range of 2496 – 2515 MHz.

6.2B.4.2.3.4 ΔT_IB,c for EN-DC five bands

Table 6.2B.4.2.3.4-1: ΔT_IB,c due to EN-DC (five bands)

Inter-band EN-DC configuration	E-UTRA or NR Band	ΔTIB,c (dB)
DC_1-3-5-7_n77	1	0.6
	3	0.6
	5	0.6
	7	0.6
	n77	0.8
DC_1-3-5-7_n78, DC_1-3-5-7-7_n78	1	0.6
	3	0.6
	5	0.6
	7	0.6
	n78	0.8
DC_1-3-5-41_n79	1	0.5
	3	0.5
	5	0.3
	41	0.53/0.84
DC_1-3-7_n3-n78	1	0.7
	3	0.7
	7	0.7
	n3	0.7
	n78	0.8
DC_1-3-7_n7-n78	1	0.7
	3	0.7
	7	0.7
	n7	0.7
	n78	0.8
DC_1-3-7-8_n28	1	0.5
	3	0.5
	7	0.6
	8	0.6
	n28	0.6
DC_1-3-7-8_n78	1	0.6
DC_1-3-7_n8-n78	3	0.6
	7	0.6
	8 or n8	0.6
	n78	0.8
DC_1-3-7-20_n8	1	0.6
	3	0.6
	7	0.6
	20	0.6
	n8	0.6
DC_1-3-7-20_n28	1	0.6
	3	0.6
	7	0.6
	20	0.6
	n28	0.6
DC_1-3-7-20_n38	1	0.3
	3	0.3
	20	0.3
DC_1-3-7-20_n78	1	0.6
	3	0.6
	7	0.6
	20	0.6
	n78	0.6
DC_1-3-7-28_n3	1	0.6
	3	0.6
	7	0.6
	28	0.6
	n3	0.6
DC_1-3-7-28_n5	1	0.6
	3	0.6
	7	0.6
	28	0.6
	n5	0.6
DC_1-3-7-28_n7	1	0.6
	3	0.6
	7	0.6
	28	0.6
	n7	0.6
DC_1-3-7-28_n40	1	0.6
	3	0.6
	7	0.8
	28	0.6
	n40	0.9
DC_1-3-7-28_n78	1	0.7
	3	0.7
	7	0.7
	28	0.6
	n78	0.8
DC_1-3-7_n28-n78	1	0.7
	3	0.7
	7	0.7
	n28	0.6
	n78	0.8
DC_1-3-7-32_n28	1	0.6
	3	0.6
	7	0.6
	n28	0.6
DC_1-3-7-32_n78	1	0.7
	3	0.7
	7	0.7
	n78	0.8
DC_1-3-7-38_n28	1	0.6
	3	0.6
	n28	0.5
DC_1-3-7-40_n78	1	0.6
	3	0.6
	7	0.5
	40	0.35
	n78	0.85
DC_1-3-7_n40-n78	1	0.6
	3	0.6
	7	0.8
	n40	0.9
	n78	0.8
DC_1-3-8-11_n28	1	0.3
	3	0.8
	8	0.6
	11	0.9
	n28	0.6
DC_1-3-8-11_n77	1	0.6
	3	0.8
	8	0.6
	11	0.9
	n77	0.8
DC_1-3-8-20_n78	1	0.6
	3	0.6
	8	0.6
	20	0.6
	n78	0.8
DC_1-3-8_n28-n77	1	0.6
	3	0.6
	8	0.6
	n28	0.6
	n77	0.8
DC_1-3-8-28_n78 DC_1-3-8_n28-n78	1	0.6
	3	0.6
	8	0.6
	28 or n28	0.6
	n78	0.8
DC_1-3-8_n77-n79	1	0.6
	3	0.6
	8	0.6
	n77	0.8
	n79	0.5
DC_1-3-8-32_n78	1	0.6
	3	0.6
	8	0.6
	n78	0.8
DC_1-3-8-40_n78	1	0.6
	3	0.6
	8	0.6
	40	0.35
	n78	0.85
DC_1-3-8-42_n77	1	0.6
	3	0.6
	8	0.6
	42	0.8
	n77	0.8
DC_1-3-11_n28-n77	1	0.6
	3	0.8
	11	0.9
	n28	0.6
	n77	0.8
DC_1-3-18_n3-n41	1	0.5
	3	0.5
	18	0.3
	n3	0.5
	n41	0.33/0.84
DC_1-3-18_n3-n77	1	0.6
	3	0.6
	18	0.3
	n3	0.6
	n77	0.8
DC_1-3-18_n3-n78	1	0.6
	3	0.6
	18	0.3
	n3	0.6
	n78	0.8
DC_1-3-18_n28-n41	1	0.5
	3	0.5
	18	0.3
	n28	0.6
	n41	0.33/0.84
DC_1-3-18_n28-n77	1	0.3
	3	0.3
	18	0.3
	n28	0.6
	n77	0.8
DC_1-3-18_n28-n77	1	0.3
	3	0.3
	18	0.3
	n28	0.6
	n78	0.8
DC_1-3-18_n41-n77	1	0.5
	3	0.5
	18	0.3
	n41	0.33/0.84
	n77	0.8
DC_1-3-18_n41-n78	1	0.5
	3	0.5
	18	0.3
	n41	0.33/0.84
	n78	0.8
DC_1-3-18-42_n77	1	0.6
	3	0.6
	18	0.3
	42	0.8
	n77	0.8
DC_1-3-18-42_n78	1	0.6
	3	0.6
	18	0.3
	42	0.8
	n78	0.8
DC_1-3-18-42_n79	1	0.6
	3	0.6
	18	0.3
	42	0.8
DC_1-3-19-21_n77	1	0.6
	3	0.8
	19	0.3
	21	0.9
	n77	0.8
DC_1-3-19-21_n78	1	0.6
	3	0.8
	19	0.3
	21	0.9
	n78	0.8
DC_1-3-19-21_n79	1	0.3
	3	0.8
	19	0.3
	21	0.9
DC_1-3-19-42_n77	1	0.6
	3	0.6
	19	0.3
	42	0.8
	n77	0.8
DC_1-3-19-42_n78	1	0.6
	3	0.6
	19	0.3
	42	0.8
	n78	0.8
DC_1-3-19-42_n79	1	0.6
	3	0.6
	19	0.3
	42	0.8
DC_1-3-20_n7-n78	1	0.6
	3	0.6
	20	0.3
	n7	0.6
	n78	0.8
DC_1-3-20_n8-n78	1	0.6
	3	0.6
	20	0.6
	n8	0.6
	n78	0.8
DC_1-3-20_n28-n75	1	0.3
	3	0.3
	20	0.6
	n28	0.6
DC_1-3-20-28_n78 DC_1-3-20_n28-n78	1	0.6
	3	0.6
	20	0.6
	28 or n28	0.6
	n78	0.8
DC_1-3-20-32_n28	1	0.3
	3	0.3
	20	0.6
	n28	0.6
DC_1-3-20-32_n78	1	0.6
	3	0.6
	20	0.6
	n78	0.8
DC_1-3-20-38_n78 DC_1-3-20_n38-n78	1	0.3
	3	0.6
	20	0.6
	38 or n38	0.5
	n78	0.8
DC_1-3-20-40_n78	1	0.5
	3	0.5
	20	0.3
	40	0.55
	n78	0.85
DC_1-3-20_n41-n78	1	0.5
	3	0.5
	20	0.3
	n41	0.5
	n78	0.8
DC_1-3-21-42_n77	1	0.6
	3	0.8
	21	0.9
	42	0.8
	n77	0.6
DC_1-3-21-42_n78	1	0.6
	3	0.8
	21	0.9
	42	0.8
	n78	0.6
DC_1-3-21-42_n79	1	0.6
	3	0.8
	21	0.9
	42	0.8
DC_1-3-21_n77-n79	1	0.6
	3	0.8
	21	0.9
	n77	0.8
DC_1-3-21_n78-n79	1	0.6
	3	0.8
	21	0.9
	n78	0.8
DC_1-3-28_n3-n78	1	0.6
	3	0.6
	28	0.6
	n3	0.6
	n78	0.8
DC_1-3-28_n7-n78	1	0.7
	3	0.7
	28	0.6
	n7	0.7
	n78	0.8
DC_1-3-28-40_n78	1	0.5
	3	0.5
	28	0.6
	40	0.5
	n78	0.8
DC_1-3-28_n40-n78	1	0.5
	3	0.6
	28	0.5
	n40	0.35
	n78	0.85
DC_1-3-28-42_n77	1	0.6
	3	0.6
	28	0.6
	42	0.8
	n77	0.8
DC_1-3-28-42_n78	1	0.6
	3	0.6
	28	0.6
	42	0.8
	n78	0.8
DC_1-3-28-42_n79	1	0.6
	3	0.6
	28	0.6
	42	0.8
DC_1-3_n28-n77-n79	1	0.6
	3	0.6
	n28	0.6
	n77	0.8
	n79	0.5
DC_1_n3-n28-n77-n79	1	0.6
	3	0.6
	n28	0.6
	n77	0.8
	n79	0.8
DC_1-3_n28-n78-n79	1	0.3
	3	0.6
	n28	0.6
	n78	0.8
	n79	0.5
DC_1-3-41_n3-n41	1	0.5
	3	0.5
	41	0.33/0.84
	n3	0.5
	n41	0.33/0.84
DC_1-3-41_n3-n77	1	0.6
	3	0.6
	41	0.5
	n3	0.6
	n77	0.8
DC_1-3-41_n3-n78	1	0.6
	3	0.6
	41	0.5
	n3	0.6
	n78	0.8
DC_1-3-41_n28-n41	1	0.3
	3	0.3
	41	0.33/0.84
	n28	0.6
	n41	0.33/0.84
DC_1-3-41_n28-n77	1	0.6
	3	0.6
	41	0.33/0.84
	n28	0.5
	n77	0.8
DC_1-3-41_n28-n78	1	0.5
	3	0.6
	41	0.33/0.84
	n28	0.5
	n78	0.8
DC_1-3-41_n41-n77	1	0.6
	3	0.6
	41	0.5
	n41	0.5
	n77	0.8
DC_1-3-41_n41-n78	1	0.6
	3	0.6
	41	0.5
	n41	0.5
	n78	0.8
DC_1-3-41-42_n77	1	0.6
	3	0.6
	41	0.5
	42	0.8
	n77	0.8
DC_1-3-41-42_n78	1	0.6
	3	0.6
	41	0.5
	42	0.8
	n78	0.8
DC_1-3-41-42_n79	1	0.6
	3	0.6
	41	0.5
	42	0.8
DC_1-3-42_n28-n77	1	0.6
	3	0.6
	42	0.8
	n28	0.8
	n77	0.8
DC_1-7-8-20 _n28	1	0.5
	7	0.6
	8	0.6
	20	0.6
	n28	0.6
DC_1-7-8-20_n78	1	0.6
	7	0.7
	8	0.6
	20	0.6
	n78	0.8
DC_1-7-8_n28-n78	1	0.6
	7	0.6
	8	0.6
	n28	0.6
	n78	0.8
DC_1-7-8-32_n78	1	0.7
	7	0.7
	8	0.6
	n78	0.8
DC_1-7-8-40_n78	1	0.6
	7	0.5
	8	0.6
	40	0.35
	n78	0.85
DC_1-7-20_n3-n38	1	0.6
	7	0.6
	20	0.5
	n3	0.6
	n38	0.5
DC_1-7-20_n3-n78	1	0.6
	7	0.7
	20	0.4
	n3	0.5
	n78	0.8
DC_1-7-20_n8-n78	1	0.6
	7	0.6
	20	0.6
	n8	0.6
	n78	0.8
DC_1-7-20-28 _n3	1	0.6
	7	0.6
	20	0.6
	28	0.6
	n3	0.6
DC_1-7-20_n28-n78	1	0.6
	7	0.7
	20	0.6
	n28	0.6
	n78	0.8
DC_1-7-20-32_n3	1	0.7
	7	0.7
	20	0.3
	n3	0.7
DC_1-7-20-32_n8	1	0.7
	7	0.7
	20	0.6
	n8	0.6
DC_1-7-20-32_n28	1	0.5
	7	0.6
	20	0.6
	n28	0.7
DC_1-7-20-32_n78	1	0.6
	7	0.7
	20	0.4
	n78	0.8
DC_1-7-20-38_n3	1	0.6
	7	0.5
	20	0.5
	38	0.5
	n3	0.6
DC_1-7-20-38_n8	1	0.5
	20	0.6
	n8	0.6
DC_1-7-20-38_n78	1	0.6
	7	0.7
	20	0.6
	n78	0.8
DC_1-7-28_n3-n78	1	0.7
	7	0.7
	28	0.6
	n3	0.7
	n78	0.6
DC_1-7-28_n7-n78	1	0.6
	7	0.6
	28	0.6
	n7	0.6
	n78	0.8
DC_1-7-28-32_n3	1	0.6
	7	0.6
	28	0.6
	n3	0.6
DC_1-7-28_n40-n78	1	0.6
	7	0.5
	28	0.3
	n40	0.5
	n78	0.8
DC_1-7-38_n3-n78	1	0.6
	n3	0.6
	n78	0.8
DC_1-8_n3-n28-n77	1	0.6
	8	0.6
	n3	0.8
	n28	0.6
	n77	0.8
DC_1-8_n3-n28-n79	1	0.6
	8	0.6
	n3	0.6
	n28	0.6
	n79	0.8
DC_1-8_n3-n77-n79	1	0.6
	8	0.6
	n3	0.8
	n77	0.8
	n79	0.8
DC_1-8-11_n3-n28	1	0.3
	8	0.6
	11	0.8
	n3	0.9
	n28	0.6
DC_1-8-11_n3-n77	1	0.6
	8	0.6
	11	0.8
	n3	0.9
	n77	0.8
DC_1-8-11_n3-n79	1	0.3
	8	0.3
	11	0.8
	n3	0.9
	n79	0.8
DC_1-8-11_n28-n77	1	0.6
	8	0.6
	11	0.4
	n28	0.6
	n77	0.8
DC_1-8-11_n77-n79	1	0.6
	8	0.6
	11	0.4
	n77	0.8
	n79	0.5
DC_1-8-20-28_n78	1	0.6
	8	0.6
	20	0.6
	28	0.6
	n78	0.8
DC_1-8_n28-n77-n79	1	0.6
	8	0.6
	n28	0.6
	n77	0.8
	n79	0.8
DC_1-8-42_n3-n28	1	0.3
	8	0.6
	42	0.8
	n3	0.6
	n28	0.8
DC_1-8-42_n3-n77	1	0.6
	8	0.6
	42	0.8
	n3	0.8
	n77	0.8
DC_1-8-42_n28-n77	1	0.6
	8	0.6
	42	0.8
	n28	0.8
	n77	0.8
DC_1-11_n3-n28-n77	1	0.6
	11	0.8
	n3	0.9
	n28	0.6
	n77	0.8
DC_1-11_n3-n77-n79	1	0.6
	11	0.8
	n3	0.9
	n77	0.8
	n79	0.8
DC_1-18-41_n3-n77	1	0.6
	18	0.3
	41	0.33/0.84
	n3	0.6
	n77	0.8
DC_1-18-41_n3-n78	1	0.6
	18	0.3
	41	0.33/0.84
	n3	0.6
	n78	0.8
DC_1-19-21-42_n77	1	0.3
	19	0.3
	21	0.4
	42	0.8
	n77	0.8
DC_1-19-21-42_n78	1	0.3
	19	0.3
	21	0.4
	42	0.8
	n78	0.8
DC_1-19-21-42_n79	1	0.3
	19	0.3
	21	0.4
	42	0.8
DC_1-19-42_n77-n79	1	0.6
	19	0.3
	42	0.8
	n77	0.8
DC_1-19-42_n78-n79	1	0.3
	19	0.3
	42	0.8
	n78	0.8
DC_1-20-28-32_n3	1	0.5
	20	0.6
	28	0.6
	n3	0.5
DC_1-20-38_n3-n78	1	0.5
	20	0.6
	38	0.5
	n3	0.6
	n78	0.8
DC_1-21-28-42_n77	1	0.6
	21	0.4
	28	0.6
	42	0.8
	n77	0.8
DC_1-21-28-42_n78	1	0.3
	21	0.4
	28	0.6
	42	0.8
	n78	0.8
DC_1-21-28-42_n79	1	0.3
	21	0.4
	28	0.6
	42	0.8
DC_1-21_n28-n77-n79	1	0.6
	21	0.4
	n28	0.6
	n77	0.8
	n79	0.5
DC_1-21_n28-n78-n79	1	0.6
	21	0.4
	n28	0.6
	n78	0.8
	n79	0.5
DC_1-21-42_n77-n79	1	0.6
	21	0.4
	42	0.8
	n77	0.8
DC_1-42_n3-n28-n77	1	0.6
	42	0.8
	n3	0.8
	n28	0.8
	n77	0.8
DC_1-21-42_n78-n79	1	0.3
	21	0.4
	42	0.8
	n78	0.8
DC_2-5-7-66_n2	2	0.5
	5	0.3
	7	0.5
	66	0.5
	n2	0.5
DC_2-5-7-66_n7 DC_2-5-7-66-66_n7	2	0.5
	5	0.3
	7	0.5
	66	0.5
	n7	0.5
DC_2-5-7-66_n66	2	0.5
	5	0.3
	7	0.5
	66	0.5
	n66	0.5
DC_2-5-7-66_n78	2	0.6
	5	0.6
	7	0.6
	66	0.6
	n78	0.6
DC_2-5-66_n2-n77 DC_2-5-66-66_n2-n77	2	0.6
	5	0.6
	66	0.6
	n2	0.6
	n77	0.8
DC_2-5-66_n5-n77 DC_2-5-66-66_n5-n77	2	0.6
	5	0.6
	66	0.6
	n5	0.6
	n77	0.8
DC_2-5-30-66_n2	2	0.5
	5	0.3
	30	0.3
	66	0.5
	n2	0.5
DC_2-5-30-66_n66	2	0.5
	5	0.3
	30	0.3
	66	0.5
	n66	0.5
DC_2-5-30-66_n77	2	0.6
	5	0.6
	30	0.3
	66	0.6
	n77	0.8
DC_2-5-66_n66-n77	2	0.5
	5	0.3
	66	0.5
	n66	0.5
	n77	0.8
DC_2-7-12-66_n2	2	0.5
	7	0.5
	12	0.8
	66	0.5
	n2	0.5
DC_2-7-12-66_n78	2	0.6
	7	0.6
	12	0.6
	66	0.6
	n78	0.6
DC_2-7-13_n25-n66	2	0.5
	7	0.5
	13	0.3
	n25	0.5
	n66	0.5
DC_2-7-13-66_n66	2	0.5
	7	0.5
	13	0.3
	66	0.5
	n66	0.5
DC_2-7-28-66_n7	2	0.5
	7	0.5
	28	0.6
	66	0.5
	n7	0.5
DC_2-7-28-66_n66	2	0.5
	7	0.5
	28	0.6
	66	0.5
	n66	0.5
DC_2-7-29-66_n78 DC_2-7-7-29-66_n78	2	0.6
	7	0.5
	66	0.6
	n78	0.8
DC_2-7-66_n25-n66	2	0.5
	7	0.5
	66	0.5
	n25	0.5
	n66	0.5
DC_2-7-66_n66-n77	2	0.6
	7	0.5
	66	0.6
	n66	0.6
	n77	0.8
DC_2-7-66_n66-n78 DC_2-7-7-66_n66-n78	2	0.6
	7	0.5
	66	0.6
	n66	0.6
	n78	0.8
DC_2-7-66-71_n2	2	0.5
	7	0.5
	66	0.5
	71	0.3
	n2	0.5
DC_2-7-66-71_n78	2	0.6
	7	0.6
	66	0.6
	71	0.6
	n78	0.6
DC_2-12-30-66_n2	2	0.5
	12	0.8
	30	0.3
	66	0.5
	n2	0.5
DC_2-12-30-66_n66	2	0.5
	12	0.8
	30	0.3
	66	0.5
	n66	0.5
DC_2-12-30-66_n77	2	0.6
	12	0.8
	30	0.3
	66	0.6
	n77	0.8
DC_2-13-66_n2-n77, DC_2-13-66-66_n2-n77	2	0.6
	13	0.3
	66	0.6
	n2	0.6
	n77	0.8
DC_2-13-66_n5-n77 DC_2-2-13-66_n5-n77 DC_2-13-66-66_n5-n77	2	0.6
	13	0.5
	66	0.6
	n5	0.6
	n77	0.8
DC_2-13-66_n66-n77 DC_2-2-13-66_n66-n77	2	0.6
	13	0.3
	66	0.6
	n66	0.6
	n77	0.8
DC_2-14-30-66_n2	2	0.5
	14	0.3
	30	0.3
	66	0.5
	n2	0.5
DC_2-14-30-66_n66	2	0.5
	14	0.3
	30	0.3
	66	0.5
	n66	0.5
DC_2-14-30-66_n77	2	0.6
	14	0.6
	30	0.3
	66	0.6
	n77	0.8
DC_2-29-30-66_n2	2	0.5
	30	0.3
	66	0.5
	n2	0.5
DC_2-29-30-66_n66	2	0.5
	30	0.3
	66	0.5
	n66	0.5
DC_2-29-30-66_n77	2	0.6
	30	0.3
	66	0.6
	n77	0.8
DC_2-30-66-(n)5	2	0.5
	5	0.3
	30	0.3
	66	0.5
	n5	0.3
DC_2-46-66_n41-n71	2	0.5
	66	0.5
	n41	0.41/0.92
	n71	0.6
DC_3-7-8_n1-n40	3	0.5
	7	0.8
	8	0.6
	n1	0.6
	n40	0.9
DC_3-7-8_n1-n78 DC_3-3-7-8_n1-n78 DC_3-7-7-8_n1-n78 DC_3-3-7-7-8_n1-n78 DC_3-7_n1-n8-n78 DC_3-3-7_n1-n8-n78 DC_3-7-7_n1-n8-n78 DC_3-3-7-7_n1-n8-n78	3	0.6
	7	0.6
	8 or n8	0.6
	n1	0.6
	n78	0.8
DC_3-7-8-20_n1	3	0.6
	7	0.6
	8	0.6
	20	0.6
	n1	0.6
DC_3-7-8_n28-n78	3	0.6
	7	0.6
	8	0.6
	n28	0.6
	n78	0.8
DC_3-7-8-32_n1	3	0.6
	7	0.7
	8	0.6
	n1	0.7
DC_3-7-8-32_n78	3	0.6
	7	0.6
	8	0.6
	n78	0.8
DC_3-7-8-40_n78	3	0.6
DC_3-7-8_n40-n78	7	0.5
	8	0.6
	40 or n40	0.55
	n78	0.85
DC_3-7-20_n1-n78	3	0.6
	7	0.7
	20	0.6
	n1	0.6
	n78	0.8
DC_3-7-20_n8-n78	3	0.6
	7	0.6
	20	0.6
	n8	0.6
	n78	0.8
DC_3-7-20-28_n1	3	0.6
	7	0.6
	20	0.6
	28	0.6
	n1	0.6
DC_3-7-20_n28-n78	3	0.6
	7	0.6
	20	0.6
	n28	0.6
	n78	0.8
DC_3-7-20-32_n1	3	0.7
	7	0.7
	20	0.3
	n1	0.7
DC_3-7-20-32_n78	3	0.6
	7	0.6
	20	0.3
	n78	0.8
DC_3-7-28_n1-n40	3	0.6
	7	0.8
	28	0.6
	n1	0.6
	n40	0.9
DC_3-7-28_n1-n78	3	0.7
	7	0.7
	28	0.6
	n1	0.7
	n78	0.6
DC_3-7-28_n3-n78	3	0.6
	7	0.6
	28	0.6
	n3	0.6
	n78	0.8
DC_3-7-28_n7-n78	3	0.6
	7	0.6
	28	0.6
	n7	0.6
	n78	0.8
DC_3-7-28_n40-n78	3	0.6
	7	0.5
	28	0.3
	n40	0.5
	n78	0.8
DC_3-7-40_n1-n78	3	0.6
	7	0.5
	40	0.35
	n1	0.6
	n78	0.85
DC_3-8-11_n28-n77	3	0.8
	8	0.6
	11	0.9
	n28	0.6
	n77	0.8
DC_3-8-20-28_n78	3	0.2
	8	0.2
	20	0.2
	28	0.2
	n78	0.5
DC_3-8-40_n1-n78	3	0.6
	8	0.6
	40	0.35
	n1	0.6
	n78	0.85
DC_3-19-21-42_n77	3	0.8
	19	0.3
	21	0.9
	42	0.8
	n77	0.8
DC_3-19-21-42_n78	3	0.8
	19	0.3
	21	0.9
	42	0.8
	n78	0.8
DC_3-19-21-42_n79	3	0.8
	19	0.3
	21	0.9
	42	0.8
DC_3-19-42_n1-n77	3	0.6
	19	0.3
	42	0.8
	n1	0.6
	n77	0.8
DC_3-19-42_n1-n78	3	0.6
	19	0.3
	42	0.8
	n1	0.6
	n78	0.8
DC_3-19-42_n1-n79	3	0.6
	19	0.3
	42	0.8
	n1	0.6
DC_3-20-32_n1-n28	n1	0.3
	3	0.3
	20	0.6
	n28	0.6
DC_3-21_n1-n77-n79	3	0.8
	21	0.9
	n1	0.6
	n77	0.8
	n79	0.5
DC_3-21_n1-n78-n79	3	0.8
	21	0.9
	n1	0.6
	n78	0.8
	n79	0.5
DC_3-21_n28-n77-n79	3	0.8
	21	0.9
	n28	0.5
	n77	0.8
	n79	0.5
DC_3-21_n28-n78-n79	3	0.8
	21	0.9
	n28	0.5
	n78	0.8
	n79	0.5
DC_3-21-42_n1-n77	3	0.8
	21	0.9
	42	0.8
	n1	0.6
	n77	0.6
DC_3-21-42_n1-n78	3	0.8
	21	0.9
	42	0.8
	n1	0.6
	n78	0.6
DC_3-21-42_n1-n79	3	0.8
	21	0.9
	42	0.8
	n1	0.6
DC_3-28-41-42_n78	3	1
	28	0.5
	41	0.33/0.84
	42	0.8
	n78	0.8
	3	1
DC_7-8-20-32_n1	7	0.7
	8	0.6
	20	0.7
	n1	0.5
DC_7-8-40_n1-n78	7	0.5
	8	0.6
	40	0.35
	n1	0.6
	n78	0.85
DC_7-20-28-32_n1	7	0.7
	20	0.6
	28	0.6
	n1	0.7
DC_7-20-28-32_n3	7	0.7
	20	0.6
	28	0.5
	n3	0.7
DC_7-20-32-38_n1	20	0.3
	n1	0.7
DC_7-20-38_n3-n78	7	0.5
	20	0.6
	38	0.5
	n3	0.5
	n78	0.8
DC_8_n3-n28-n77-n79	8	0.2
	n3	0.2
	n28	0.2
	n77	0.5
	n79	0.5
DC_8-11_n3-n28-n77	8	0.6
	11	0.8
	n3	0.9
	n28	0.6
	n77	0.8
DC_8-11_n3-n77-n79	8	0.6
	11	0.8
	n3	0.9
	n77	0.8
	n79	0.8
DC_8-42_n3-n28-n77	8	0.6
	42	0.8
	n3	0.6
	n28	0.8
	n77	0.8
DC_19-21-42_n1-n77	19	0.3
	21	0.4
	42	0.8
	n1	0.3
	n77	0.8
DC_19-21-42_n1-n78	19	0.3
	21	0.4
	42	0.8
	n1	0.3
	n78	0.8
DC_19-21-42_n1-n79	19	0.3
	21	0.4
	42	0.8
	n1	0.3
DC_19-21-42_n77-n79	19	0.3
	21	0.4
	42	0.8
	n77	0.8
DC_19-21-42_n78-n79	19	0.3
	21	0.4
	42	0.8
	n78	0.8
DC_19-42_n1-n77-n79	19	0.3
	42	0.8
	n1	0.6
	n77	0.8
	n79	0.5
DC_19-42_n1-n78-n79	19	0.3
	42	0.8
	n1	0.3
	n78	0.8
	n79	0.5
NOTE 1: The requirement is applied for UE transmitting on the frequency range of 2545 – 2690 MHz. NOTE 2: The requirement is applied for UE transmitting on the frequency range of 2496 – 2545 MHz. NOTE 3: The requirement is applied for UE transmitting on the frequency range of 2515 – 2690 MHz. NOTE 4: The requirement is applied for UE transmitting on the frequency range of 2496 – 2515 MHz. NOTE 5: Only applicable for UE supporting inter-band carrier aggregation with uplink in one E-UTRA band and without simultaneous Rx/Tx

6.2B.4.2.3.5 ΔT_IB,c for EN-DC six bands

Table 6.2B.4.2.3.5-1: ΔT_IB,c due to EN-DC (six bands)

Inter-band EN-DC configuration	E-UTRA or NR Band	ΔTIB,c (dB)
DC_1-3-7-8_n28-n78	1	0.6
	3	0.6
	7	0.6
	8	0.6
	n28	0.6
	n78	0.8
DC_1-3-7-8-32_n78	1	0.6
	3	0.6
	7	0.6
	8	0.6
	n78	0.8
DC_1-3-7-8-40_n78	1	0.6
	3	0.6
	7	0.5
	8	0.6
	40	0.31
	n78	0.81
DC_1-3-7-20_n8-n78	1	0.6
	3	0.6
	7	0.6
	20	0.6
	n8	0.6
	n78	0.8
DC_1-3-7-20_n28-n78	1	0.7
	3	0.7
	7	0.7
	20	0.6
	n28	0.6
	n78	0.8
DC_1-3-7-20-32_n78	1	0.7
	3	0.7
	7	0.7
	20	0.4
	n78	0.8
DC_1-3-7-20_n38-n78	1	0.6
	3	0.6
	20	0.6
	n78	0.8
DC_1-3-7-28_n3-n78	1	0.7
	3	0.7
	7	0.7
	28	0.6
	n3	0.7
	n78	0.8
DC_1-3-7-28_n7-n78	1	0.7
	3	0.7
	7	0.7
	28	0.6
	n7	0.7
	n78	0.8
DC_1-3-7-28_n40-n78	1	0.6
	3	0.6
	7	0.8
	28	0.3
	n40	0.9
	n78	0.8
DC_1-3-8-11_n28-n77	1	0.6
	3	0.8
	8	0.6
	11	0.9
	n28	0.6
	n77	0.8
DC_1-3-8-20-28_n78	1	0.3
	3	0.3
	8	0.6
	20	0.6
	28	0.6
	n78	0.8
DC_1-7-20-28-32_n3	1	0.6
	7	0.6
	20	0.6
	28	0.6
	n3	0.6
DC_1-7-20-38_n3-n78	1	0.6
	7	0.7
	20	0.6
	38	0.5
	n3	0.6
	n78	0.8
DC_1-8_n3-n28-n77-n79	1	0.6
	8	0.6
	n3	0.8
	n28	0.6
	n77	0.8
	n79	0.8
DC_1-8-11_n3-n28-n77	1	0.6
	8	0.6
	11	0.8
	n3	0.9
	n28	0.6
DC_1-8-42_n3-n28-n77	n77	0.8
	1	0.6
	8	0.6
	42	0.8
	n3	0.8
DC_3-7-8-40_n1-n78	3	0.6
	7	0.5
	8	0.6
	40	0.32
	n1	0.6
	n78	0.82
DC_7-8-20-32-38_n1	8	0.6
	20	0.6
	n1	0.7
DC_7-20-28-32-38_n1	20	0.6
	28	0.6
	n1	0.7
NOTE 1: Only applicable for UE supporting inter-band carrier aggregation with uplink in one NR band and without simultaneous Rx/Tx. NOTE 2: Only applicable for UE supporting inter-band carrier aggregation with uplink in one E-UTRA band and without simultaneous Rx/Tx.

6.2B.4.2.3a Inter-band NE-DC within FR1

Unless ΔT_IB,c is specified in this clause, the value of ΔT_IB,c for the correspondingly specified EN-DC configuration in clause 6.2B.4.2.3 is applicable.

Table 6.2B.4.2.3a-1: ΔT_IB,c due to EN-DC(two bands)

Inter-band NE-DC configuration	E-UTRA or NR Band	ΔTIB,c (dB)
DC_n28_34	n28	0.3
	34	0.3
DC_n28_39	n28	0.3
	39	0.3
DC_n41_34	n41	0.3
	34	0.3

6.2B.4.2.4 Inter-band EN-DC including FR2

6.2B.4.2.4.1 ΔT_IB,c for EN-DC two bands

Unless otherwise stated, ΔT_IB,c for E-UTRA and FR2 NR bands of inter-band EN-DC combinations defined in table 5.5B.5.1-1 is set to zero.

Table 6.2B.4.2.4.1-1: Void

6.2B.4.2.4.2 ΔT_IB,c for EN-DC three bands

Unless otherwise stated, ΔT_IB,c for FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA bands for inter-band EN-DC defined in table 5.5B.5.2-1 is the same as those for the corresponding E-UTRA CA configuration specified in TS 36.101 [4], without the FR2 NR bands.

Table 6.2B.4.2.4.2-1: Void

6.2B.4.2.4.3 ΔT_IB,c for EN-DC four bands

Unless otherwise stated, ΔT_IB,c for FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA bands for inter-band EN-DC defined in table 5.5B.5.3-1 is the same as those for the corresponding E-UTRA CA configuration specified in TS 36.101 [4], without the FR2 NR bands.

Table 6.2B.4.2.4.3-1: Void

6.2B.4.2.4.4 ΔT_IB,c for EN-DC five bands

Unless otherwise stated, ΔT_IB,c for FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA bands for inter-band EN-DC defined in table 5.5B.5.4-1 is the same as those for the corresponding E-UTRA CA configuration specified in TS 36.101 [4], without the FR2 NR bands.

Table 6.2B.4.2.4.4-1: Void

6.2B.4.2.4.5 Void

6.2B.4.2.4a Inter-band NE-DC including FR2

Unless ΔT_IB,c is specified in this clause, the value of ΔT_IB,c for the correspondingly specified EN-DC configuration in clause 6.2B.4.2.4 is applicable.

6.2B.4.2.5 Inter-band EN-DC including both FR1 and FR2

6.2B.4.2.5.1 ΔT_IB,c for EN-DC three bands

Unless otherwise stated, for inter-band EN-DC configurations defined in table 5.5B.6.2-1, ΔT_IB,c for constituent FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA and FR1 NR bands is the same as those for the corresponding inter band EN-DC configuration without the FR2 bands specified in 6.2B.4.2.3.

Table 6.2B.4.2.5.1-1: Void

6.2B.4.2.5.2 ΔT_IB,c for EN-DC four bands

Unless otherwise stated, for inter-band EN-DC configurations defined in table 5.5B.6.3-1, ΔT_IB,c for constituent FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA and FR1 NR bands is the same as those for the corresponding inter band EN-DC configuration without the FR2 bands specified in 6.2B.4.2.3.

6.2B.4.2.5.3 ΔT_IB,c for EN-DC five bands

Unless otherwise stated, for inter-band EN-DC configurations defined in table 5.5B.6.4-1, ΔT_IB,c for constituent FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA and FR1 NR bands is the same as those for the corresponding inter band EN-DC configuration without the FR2 bands specified in 6.2B.4.2.3.

6.2B.4.2.5.4 ΔT_IB,c for EN-DC six bands

Unless otherwise stated, for inter-band EN-DC configurations defined in table 5.5B.6.5-1, ΔT_IB,c for constituent FR2 NR bands is set to zero, and ΔT_IB,c for constituent E-UTRA and FR1 NR bands is the same as those for the corresponding inter band EN-DC configuration without the FR2 bands specified in 6.2B.4.2.3.