Mitsubishi Electric FR-A700 Manual page 77

Name (type)
Outline dimension
Model
0.4K
0.75K
1.5K
2.2K
3.7K
5.5K
7.5K
11K
15K
DC reactor
18.5K
22K
(for power coordination)
30K
FR-HEL-(H) K
37K
45K
55K
(Note) 1. Be sure to remove the jumper across the inverter terminals P/+-P1. (A failure to do so will produce no power factor improving
2. The wiring length between the reactor and inverter should be within 5m.
3. The size of the cables used should be equal to or larger than that of the power supply cables (R/L1, S/L2, T/L3).
4. Make selection according to the motor capacity.
5. Power factor improving reactor (FR-BEL) can be used.
6. A DC reactor for the 75K or more is supplied with the inverter.
Outline dimension
FR-BSF01
Line noise filter
FR-BSF01 for small
...
capacities
FR- BLF
Outline dimension
Brake Resistor
Type
FR-ABR-0.4K
FR-ABR-0.75K
FR-ABR-2.2K
FR-ABR-3.7K
FR-ABR-5.5K
FR-ABR-7.5K
FR-ABR-11K
High-duty
FR-ABR-15K
brake resistor
FR-ABR-(H)
FR-ABR-22K
*1. For the 1.5K and 2.2K inverter.
*2. For the 15K brake resistor, configure so that two 18Ω resistors are connected in parallel.
*3. For the 22K brake resistor, configure so that two 13Ω resistors are connected in parallel.
*4. For the H15K brake resistor, configure so that two 18Ω resistors are connected in series. FR-ABR-15K is indicated on the resistor. (same
resistor as the 200V class 15K)
*5. For the H22K brake resistor, configure so that two 52Ω resistors are connected in parallel.
W1+10
0
Specifications, Structure, etc.
Mass
W D H
(kg)
70 61 71 0.4
85 61 81 0.5
85 70 81 0.8
85 70 81 0.9
77 82 92 1.5
77 92 92 1.9
86 98 113 2.5
105 112 133 3.3
105 115 133 4.1
105 165 93 4.7
105 175 93 5.6
114 200 100 7.8
133 195 117 10
133 205 117 11
153 209 132 12.6
effect))
(When the inverter capacity is larger than the motor capacity, make selection according to the motor capacity)
Power factor improving effect
FR-BEL approx.95%
FR-HEL approx.93%
FR-BLF
110
95
2- φ5
φ7
65
33
Outline Dimension
Permissible
Brake
W W1 D
Duty
10% 140 500 40
10% 215 500 40
10% 240 500 50
*1
10% 215 500 61
10% 335 500 61
10% 400 500 80
6% 400 700 100
6% 300 700 100
*2
6% 400 700 100
*3
(Note) 1. When using the FR-ABR type brake resistor, remove the jumper across terminal
D
H
W
(Unit: mm)
Mass
Model W D H
(kg)
H0.4K
90 60 78 0.6
H0.75K
66 70 100 0.8
H1.5K 66 80 100 1
H2.2K
76 80 110 1.3
H3.7K
86 95 120 2.3
H5.5K 96 100 128 3
H7.5K 96 105 128 3.5
H11K
105 110 137 4.5
H15K
105 125 152 5
H18.5K 114 120 162 5
H22K
133 120 178 6
H30K
133 120 178 6.5
H37K 133 155 187 8.5
H45K
133 170 187 10
H55K
152 170 206 11.5
130
(Note) 1. Each phase should be wound at least 3
160
180
Resis-
Approx
tance Brake Resistor
Mass
Value Type
H
(kg)
(Ω)
21 200 0.2 FR-ABR-H0.4K
21 100 0.4 FR-ABR-H0.75K
FR-ABR-H1.5K
26 60 0.5
FR-ABR-H2.2K
33 40 0.8 FR-ABR-H3.7K
33 25 1.3 FR-ABR-H5.5K
40 20 2.2 FR-ABR-H7.5K
50 13 3.5 FR-ABR-H11K
18 2.4
50 FR-ABR-H15K*4
(×1/2) (×2)
13 3.3
50 FR-ABR-H22K*5
(×1/2) (×2)
PR-PX. Failure to remove will cause the brake resistor to overheat.
2.The regenerative brake duty setting should be less than permissible brake duty in
the table above.
3.The temperature of the brake resistor becomes 300°C or more depending on the
operation frequency, care must be taken for installation and heat dissipation.
4. MYS type resistor can be also used. Note the permissible brake duty.
Less than D
H
W
MCCB
Inverter
Power
R/L1
supply
S/L2
T/L3
Line noise filter
times (4T, 4 turns) in the same direction.
(The greater the unmber of turns, the
more effective result is obtained.)
2. When the thickness of the wire prevents
winding, use at least 4 in series and
ensure that the current passes through
each phase in the same direction.
3. Can be used on the output side in the
same way as the input side.
4. Please use FR-BSF01 for inverters with
small capacities of 3.7K or less. Thick
2
wires (38mm or more) can not be used.
In such cases, use the FR-BLF.
(Unit: mm)
Outline Dimension Resis-
Permissible
tance
Brake
Value
W W1 D H
Duty
(Ω)
10% 115 500 40 21 1200
10% 140 500 40 21 700
10% 215 500 40 21 350
10% 240 500 50 26 250
10% 215 500 61 33 150
10% 335 500 61 33 110
10% 400 500 80 40 75
6% 400 700 100 50 52
18
6% 300 700 100 50
(×2)
52
6% 400 700 100 50
(×1/2)
Approx
Mass
(kg)
0.2
0.2
0.4
0.5
0.8
1.3
2.2
3.2
2.4
(×2)
3.3
(×2)
80