Pr. 51, Pr. 53, Pr. 55, Pr. 56). Mitsubishi Electric Marine Battery FR-HC2, FR-HC2-7.5K, FR-HC2, FR-HC2-H7.5K
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HC2.book 84 ページ 2012年11月19日 月曜日 午前10時52分
Description of parameters
3.4.12 Reference of the terminal FM (pulse train output) and terminal AM (analog output)
(Pr. 45, Pr. 49, Pr. 51, Pr. 53, Pr. 55, Pr. 56)
Two types of monitor output, pulse train output from the terminal FM and analog voltage output from the terminal AM, are available.
Set the reference of the signal output from the terminals FM and AM.
Parameter
Number
45
49
Name
AM output filter
Power supply frequency monitoring reference
51
Input power monitoring reference
Initial value Setting range
0.01s
60Hz
Rated converter power
Description
0 to 5s
45Hz to 65Hz
55K or lower
75K or higher
Set the output filter of terminal AM.
Set the full-scale value when outputting the power supply frequency monitor value from terminal FM or AM.
0 to
100kW Set the full-scale value when outputting the input power
0 to
3600kW monitor value from terminal FM or AM.
53
55
Input voltage monitoring reference
Bus voltage monitoring reference
200V class
400V class
200V class
400V class
220V
440V
340V
680V
0 to 500V
0 to 1000V
56
Current monitoring reference
Rated converter current
55K or lower
75K or higher
0 to
500A
0 to
3600A
(1) Reference for power supply frequency monitor
(Pr. 49)
Set the full-scale value when outputting the input voltage monitor value from terminal FM or AM.
Set the full-scale value when outputting the bus voltage monitor value from terminal FM or AM.
Set the full-scale value when outputting the input current monitor value from terminal FM or AM.
For the calibration of terminal FM, set the full-scale value of the connected meter when the pulse speed of the terminal FM is 1440 pulses/s.
Set the frequency to be indicated as the full-scale value on the frequency meter (1mA analog meter) connected between terminal FM and SD.
The pulse speed is proportional to the power supply frequency. (The maximum pulse train output is 2400 pulses/s.)
For the calibration of terminal AM, set the full-scale value of the connected meter when output voltage of terminal AM is
10VDC.
Set the frequency to be indicated as the full-scale value on the meter (10VDC voltmeter) connected between terminal AM and 5.
Output voltage is proportional to the frequency. (Maximum output voltage is 10VDC.)
2400
1440
10VDC
0Hz
0V
0Hz
45Hz 60Hz 65Hz
(initial value)
Setting range of
Pr. 49
45Hz 60Hz 65Hz
(initial value)
Setting range of
Pr. 49
84
HC2.book 85 ページ 2012年11月19日 月曜日 午前10時52分
(2) Reference for input power monitor
(Pr. 51)
, input voltage monitor
(Pr. 53)
, bus voltage monitor
(Pr. 55)
, and current monitor
(Pr. 56)
.
For the calibration of terminal FM, set the full-scale value of the connected meter when the pulse speed of terminal FM is
1440 pulse/s.
Set the power (kW), voltage (V) and current (A) to be indicated as the full-scale values to the frequency meter (1mA analog meter) connected between terminal FM and SD.
Pulse speed is proportional to each monitor. (Maximum pulse train output is 2400 pulse/s. )
For the calibration of terminal AM, set the full-scale value of the connected meter when output voltage of terminal AM is
10VDC.
Set the power (kW), voltage (V) and current (A) to be indicated as the full scale values on the meter (10VDC voltmeter) connected between terminal AM and 5.
Output voltage is proportional to each monitor. (Maximum output voltage is 10VDC.)
2400
1440
10VDC
0
0
0
0
Pr. 51
Initial setting (rated power)
Pr. 53
Initial setting (220V(440V))
Pr. 55 Initial setting (340V(680V))
Pr. 56
Initial setting (rated current)
3600kW
500V
1000V
3600A
0
0
0
0
Pr. 51
Initial setting (rated power)
Pr. 53
Initial setting (220V(440V))
Pr. 55 Initial setting (340V(680V))
Pr. 56
Initial setting (rated current)
3600kW
500V
1000V
3600A
Setting range
(3) Terminal AM response adjustment
(Pr. 45)
Setting range
Using Pr. 45 , the output voltage response of the terminal AM can be adjusted in the range of 0 to 5s.
Increasing the setting stabilizes the terminal AM output more but reduces the response level. (Setting "0" sets the response level to 7ms.)
3
85
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Table of contents
- 9 1.1 Pre-operation instructions
- 9 Features of FR-HC2 (high power factor converter)
- 9 Japanese harmonic suppression guideline
- 12 Product checking and parts identification
- 14 1.2 Converter and peripheral devices
- 15 1.3 Precautions for selecting peripheral devices
- 15 Measures against noises (EMI)
- 18 Peripheral device list
- 21 Selecting the rated sensitivity current for the earth leakage circuit breaker
- 23 2.1 Removal and installation of the converter (FR-HC2) front cover
- 25 cover
- 26 2.3 Installation
- 26 Converter placement
- 28 2.4 Protruding the heatsink
- 28 When using a heatsink protrusion attachment (FR-A7CN)
- 28 Heatsink protrusion for 160K or higher
- 30 2.5 Installation of peripheral devices
- 30 Installation of reactor 1 and reactor
- 31 Installation of the outside box (FR-HCB2-7.5K to 75K, FR-HCB2-H7.5K to H220K)
- 32 Installation of filter capacitor (FR-HCC2-H280K to H560K)
- 32 Installation of inrush current limit resistor (FR-HCR2-H280K to H560K)
- 33 Installation of MC power supply stepdown transformer (FR-HCM2-H280K to H560K)
- 34 2.6 Main circuit terminal specifications
- 34 Description of main circuit terminal
- 35 Terminal arrangement of the main circuit terminal
- 38 Cable sizes of the main control circuit terminals and earth (ground) terminals
- 41 (FR-HC2-7.5K to 75K, FR-HC2-H7.5K to H220K)
- 41 Connection diagram (when using with the FR-A700 series)
- 42 Wiring of main circuit
- 48 2.8 Wiring of main circuit (FR-HC2-H280K)
- 48 Connection diagram (when using with the FR-A700 series)
- 50 Wiring of main circuit
- 54 2.9 Wiring of main circuit (FR-HC2-H400K, H560K)
- 54 Connection diagram (when using with the FR-A700 series)
- 55 Wiring of main circuit
- 60 2.10 Notes on earthing (grounding)
- 61 2.11 Compatible inverter for the high power factor converter
- 61 2.11.1 Applicable inverter capacity
- 62 2.11.2 Inverter parameter settings
- 63 2.12 Wiring of several inverters to one converter
- 65 2.13 Wiring of control circuit
- 65 2.13.1 Description of control circuit terminal
- 67 2.13.2 Changing the control logic
- 69 2.13.3 Control circuit terminal layout
- 70 2.13.4 Wiring instructions
- 71 2.13.5 When connecting the operation panel or parameter unit using a connection cable
- 71 2.13.6 Communication operation (computer link operation)
- 73 3.1 Operation panel (FR-DU07-CNV)
- 73 Names and functions of the operation panel (FR-DU07-CNV)
- 74 Basic operation (factory setting)
- 75 Changing the parameter setting value
- 76 parameter unit with battery pack (FR-PU07BB(-L))
- 76 Parts identification of the parameter unit
- 76 Explanation of keys
- 77 Monitoring function
- 78 Function menu
- 80 3.3 Parameter list
- 82 3.4 Description of parameters
- 82 Displaying and hiding extended parameters (Pr. 0)
- 82 Input frequency to converter (Pr. 1, Pr. 2)
- 83 Input terminal function selection (Pr. 3 to Pr. 7)
- 84 Operation selection of SOF signal and OH signal (Pr. 8, Pr. 9)
- 85 Output terminal function selection (Pr. 10 to Pr. 16)
- 86 DC voltage control (Pr. 22 to Pr. 24, Pr. 80, Pr. 81)
- 87 Input current detection function (Y12 signal, Y13 signal, Pr. 25 to Pr. 30)
- 88 Displaying the life of the converter parts (Pr. 31 to Pr. 33)
- 89 Maintenance timer alarm (Pr. 34, Pr. 35)
- 90 3.4.10 Cooling fan operation selection (Pr. 36)
- 90 3.4.11 Instantaneous power failure detection hold (Pr. 44)
- 91 Pr. 51, Pr. 53, Pr. 55, Pr. 56)
- 93 3.4.13 DU/PU, terminal FM/AM monitor display selection (Pr. 46 to Pr. 48, Pr. 50, Pr. 52, Pr. 54)
- 96 3.4.14 Operation selection at instantaneous power failure (Pr. 57)
- 97 3.4.15 Free parameter (Pr. 58, Pr. 59)
- 97 3.4.16 Key lock selection of operation panel(Pr. 61)
- 98 3.4.17 Retry function (Pr. 65, Pr. 67 to Pr. 69)
- 99 3.4.18 Reset selection/disconnected PU detection/PU stop selection (Pr. 75)
- 101 3.4.19 Parameter write disable selection (Pr. 77)
- 102 3.4.20 Current control (Pr. 82, Pr. 83)
- 102 3.4.21 Wiring and configuration of PU connector
- 104 3.4.22 Initial settings and specifications of RS-485 communication (Pr. 117 to Pr. 124)
- 105 3.4.23 Mitsubishi inverter protocol (computer link communication)
- 116 3.4.24 Initial setting and specification for the CC-Link communication function (Pr. 542 to Pr. 544)
- 122 3.4.25 Operation at a communication error (Pr. 500 to Pr. 502)
- 123 3.4.26 Communication EEPROM write selection (Pr. 342)
- 124 3.4.27 Setting of the parameter unit and operation panel (Pr. 145, Pr. 990, Pr. 991)
- 125 3.4.28 Terminal FM and AM calibration (calibration parameter C0 (Pr. 900), C1 (Pr. 901))
- 127 3.5 Parameter clear / All parameter clear
- 128 3.6 Parameter copy and parameter verification
- 131 4.1 Troubleshooting
- 131 4.2 Reset method of protective function
- 132 4.3 List of fault and alarm indications
- 133 4.4 Causes and corrective actions
- 140 4.5 Correspondences between digital and actual characters
- 141 4.6 Check and clear of the faults history
- 143 4.7 Check first when you have a trouble
- 145 5.1 Inspection items
- 145 Daily inspection
- 145 Periodic inspection
- 146 Daily and periodic inspection list
- 147 Checking the converter module
- 147 Cleaning
- 148 Replacement of parts
- 152 5.2 Measurement of main circuit voltages, currents and powers
- 153 Insulation resistance test using megger
- 153 Pressure test
- 155 6.1 Rated specifications
- 156 6.2 Common specifications
- 157 6.3 Outline dimensions
- 157 Converter (FR-HC2)
- 164 Reactor 1 (FR-HCL21)
- 172 Reactor 2 (FR-HCL22)
- 179 Difference between the reactor 1 (FR-HCL21) and the reactor 2 (FR-HCL22)
- 179 Outside box (FR-HCB2)
- 186 Filter capacitor (FR-HCC2)
- 188 FR-HCM
- 192 Inrush current limit resistor (FR-HCR2)
- 193 Parameter unit
- 195 Appendix 1 Instruction code list
- 196 Appendix 2 Instructions for compliance with the EU Directives
- 198 Appendix 3 Instructions for UL and cUL