Fuji Electric FRENIC-HVAC User Manual page 137

[ 4 ] Converter configuration
CT mode
MC for MC for
charging power
PWM
circuit supply
converter
type
(73) (52)
7.5 RHC7.5-2C SC-5-1 1
11 RHC11-2C SC-N1 1
15 RHC15-2C SC-N2 1
18.5 RHC18.5-2C SC-N3 1
22 RHC22-2C
30 RHC30-2C SC-N4 1
37 RHC37-2C SC-N5 1
45 RHC45-2C SC-N7 1
55 RHC55-2C SC-N8 1
75 RHC75-2C SC-N11 1
90 RHC90-2C
7.5 RHC7.5-4C SC-05 1
11 RHC11-4C SC-4-0 1
15 RHC15-4C SC-5-1 1
18.5 RHC18.5-4C SC-N1 1
22 RHC22-4C
30 RHC30-4C SC-N2 1
37 RHC37-4C SC-N2S 1
45 RHC45-4C SC-N3 1
55 RHC55-4C SC-N4 1
75 RHC75-4C SC-N5 1
90 RHC90-4C SC-N7 1
110 RHC110-4C SC-N8 1
132 RHC132-4C
160 RHC160-4C SC-N11 1
200 RHC200-4C SC-N12 1
1
220 RHC220-4C
280 RHC280-4C SC-N3 1 SC-N14 1
315 RHC315-4C
355 RHC355-4C
400 RHC400-4C SC-N16 1
500 RHC500-4C SC-N11 3
630 RHC630-4C SC-N12 3
(*1) The charging box (CU) contains a combination of a charging resistor (R0) and a fuse (F). If no CU is used, it is necessary to prepare the
charging resistor (R0) and fuse (F) at your end.
(*2) The filtering capacitor consists of two pieces of capacitors. For an order of quantity "1," two pieces of capacitors are to be delivered.
(*3) (*4) Lowering the carrier frequency or using the OPC-VG7-SIR increases the generation loss, so use the SC-N4/SF for (*3) and the
SC-N8 for (*4).
Charging circuit box
(*1)
Charging
Fuse
resistor
(CU) (R0) (F)
CU7.5-2C 1 (80W 7.5Ω) (3) (CR2LS-50/UL) (2) LR2-7.5C
(HF5C5504)
CU11-2C 1 (CR2LS-75/UL) (2) LR2-15C
CU15-2C 1 (CR2LS-100/UL) (2)
CU18.5-2C 1 (GRZG120 2Ω) (3)
CU22-2C 1 (CR2LS-150/UL) (2)
CU30-2C 1 (CR2LS-200/UL) (2) LR2-37C
CU45-2C 1 (CR2LS-260/UL) (2)
CU55-2C 1 (CR2LS-400/UL) (2)
CU75-2C 1
CU90-2C 1 (GRZG400 1Ω) (3) (A50P600-4)
CU7.5-4C 1 (TK50B 30ΩJ) (3) (CR6L-30/UL)
(HF5B0416)
CU15-4C 1 (CR6L-50/UL)
CU18.5-4C 1 (80W 7.5Ω) (3)
(HF5C5504)
CU22-4C 1 (CR6L-75/UL)
CU30-4C 1 (CR6L-100/UL) (2) LR4-37C
CU45-4C 1 (CR6L-150/UL) (2)
CU55-4C 1 (CR6L-200/UL) (2)
CU75-4C 1
CU90-4C 1 (CR6L-300/UL) (2) LR4-110C
CU110-4C 1 (GRZG120 2Ω) (3)
CU132-4C 1 (A50P400-4)
CU160-4C 1 (A50P600-4)
CU200-4C 1 (GRZG400 1Ω) (3)
CU220-4C 1 (A70QS800-4)
GRZG400 1Ω 6 A70QS800-4
(2 pcs in parallel)
A70P1600-4TA
A70P2000-4T
4-21
Boosting Filtering
Filtering resistor
reactor reactor
(Lr) (Lf) (Lf)
1 GRZG80 0.42Ω 3 LFC2-7.5C
1 GRZG150 0.2Ω 3 LFC2-15C
LR2-22C 1 GRZG200 0.13Ω 3 LFC2-22C
1 GRZG400 0.1Ω 3 LFC2-37C
LR2-55C 1 LFC2-55C
LR2-75C 1 LFC2-75C
(2) LR2-110C 1 GRZG400 0.12Ω 6 LFC2-110C 1 CF2-110C
(2 pcs in parallel)
(2) LR4-7.5C 1 GRZG80 1.74Ω 3 LFC4-7.5C
(2) LR4-15C 1 GRZG150 0.79Ω 3 LFC4-15C
LR4-22C 1 GRZG200 0.53Ω 3 LFC4-22C
(2)
1 GRZG400 0.38Ω 3 LFC4-37C
LR4-55C 1 GRZG400 0.26Ω 3 LFC4-55C
LR4-75C 1 GRZG400 0.38Ω 3 LFC4-75C
1 GRZG400 0.53Ω 6 LFC4-110C 1 CF4-110C
(2 pcs in parallel)
(2) LR4-160C 1 RF4-160C 1 LFC4-160C 1 CF4-160C
(2)
LR4-220C 1 RF4-220C 1 LFC4-220C 1 CF4-220C
(2)
2 LR4-280C 1 RF4-280C 1 LFC4-280C 1 CF4-280C
2 LR4-315C 1 RF4-315C 1 LFC4-315C 1 CF4-315C
LR4-355C 1 RF4-355C 1 LFC4-355C 1 CF4-355C
LR4-400C 1 RF4-400C 1 LFC4-400C 1 CF4-400C
LR4-500C 1 RF4-500C 1 LFC4-500C 1 CF4-500C 1
2 LR4-630C 1 RF4-630C 1 LFC4-630C 1 CF4-630C 1
4.4 Options
MC for
Filtering
filtering
capacitor
circuit
(Cf) (6F)
1 CF2-7.5C 1
1 CF2-15C 1
1 CF2-22C 1
1 CF2-37C 1
1 CF2-55C 1
1 CF2-75C 1
1
1 CF4-7.5C 1
1 CF4-15C 1
1 CF4-22C 1
1 CF4-37C 1
1 CF4-55C 1
1 CF4-75C 1
1
1
1
1 SC-N4 1
1
1
1
SC-N4 1
(*2) (*3)
1
SC-N7
(*2) (*4)