Rockwell-automation 20B PowerFlex 70, PowerFlex 700 Reference Manual Instrukcja Użytkownika Strona 99
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Drive Ratings (kW, Amps, Volts)
Rockwell Automation Publication PFLEX-RM001H-EN-P - June 2013 99
torque load reducing the output frequency does not lower the current (load).
Lowering current limit on a CT load will push the drive down to a region where
the thermal issue becomes worse. In this situation the thermal manager will
increase the calculated losses in the power module to track the worst case IGBT.
For example, if the thermal manager normally provides 150% for 3 seconds at
high speeds, it may only provide 150% for one second before generating a fault at
low speeds.
If operating at 60Hz 120%, lowering the current limit may cause a fault sooner
than allowing the drive to continue to operate. In this case the user may want to
disable current limit fold back.
Drive Ratings (kW, Amps,
Volts)
Refer to Fuses and Circuit Breakers on page 106.
Droop Droop is used to “shed” load and is usually used when a soft coupling
of two motors is present in an application. The master drive speed regulates and
the follower uses droop so it does not “fight” the master. The input to the droop
block is the commanded motor torque. The output of the droop block reduces
the speed reference. [Droop RPM @ FLA] sets the amount of speed, in RPM,
that the speed reference is reduced when at full load torque. For example, when
[Droop RPM @ FLA] is set to 50 RPM and the drive is running at 100% rated
motor torque, the droop block would subtract 50 RPM from the speed reference.
Economizer
(Auto-Economizer)
Refer to Torque Performance Modes on page 201.
Economizer mode consists of the sensorless vector control with an additional
energy savings function.
When steady state speed is achieved, the economizer becomes active and
automatically adjusts the drive output voltage based on applied load. By matching
output voltage to applied load, the motor efficiency is optimized. Reduced load
commands a reduction in motor flux current. The flux current is reduced as long
as the total drive output current does not exceed 75% of motor rated current as
programmed in [Motor NP FLA], parameter 42. The flux current is not allowed
to be less than 50% of the motor flux current as programmed in [Flux Current
Ref ], parameter 63. During acceleration and deceleration, the economizer is
inactive and sensorless vector motor control performs normally.
Vector
Maximum Voltage
Maximum
Frequency
Frequency
V
total
Motor Nameplate Voltage
Motor Nameplate
Frequency
Ir Voltage
0
0
Rated Flux Current
Reduced Flux Current,
minimum of 50% of Rated Flux Current
Increasing
Load
- Reference Manual 1
- Important User Information 2
- Summary of Changes 3
- New and Updated 3
- Information 3
- Table of Contents 5
- Chapter 1 9
- General Precautions 10
- Detailed Drive Operation 11
- Alarm Status Indication 15
- INPUTS & OUTPUTS 17
- Analog Input Configuration 19
- Analog Inputs 20
- Analog Scaling 22
- Output Hertz 23
- Input mA 24
- Torque Ref % 26
- Input Volts 26
- Value Display 28
- Cable Selection 28
- Explanation 31
- Output Current 32
- Output Voltage 32
- Table 1 Software Filters 34
- Auto/Manual 37
- Autotune 40
- PowerFlex 700VC 44
- Speed Control - Reference 46
- (2.0 ms) 46
- Speed Control - Regulator 48
- (1.0 ms) 48
- Torque Control 49
- (0.25ms) 49
- Process Trim 50
- MOP Control 51
- Block Diagrams 52
- Inputs & Outputs - Analog 53
- Control Logic 54
- (2.0ms) 54
- Inverter Overload IT 55
- Bus Regulation [Bus Reg Gain] 56
- Single Seq 500 S/s 56
- Operation 57
- Motor Speed 57
- Proportional Channel 58
- Integral Channel 58
- Bus Regulation 59
- Table 3 60
- Table 4 61
- Carrier (PWM) Frequency 62
- EMC Instructions 63
- Table 8 Recommended Filters 65
- Current Limit 66
- Datalinks 67
- Decel Time [Decel Time 1, 2] 69
- Wiring Examples 70
- Digital Inputs 75
- Digital Input Conflict Alarms 83
- Output Time Delay 90
- Client/Server 92
- Peer-to-Peer operation 93
- Overall RMS Protection 95
- Drive Overload 96
- Thermal Manager Protection 97
- PWM Frequency 97
- DTO Fault 98
- Temperature Display 98
- Low Speed Operation 98
- Drive Ratings (kW, Amps 99
- Economizer 99
- (Auto-Economizer) 99
- Fan See Fan Curve above 100
- When a Fault Occurs 101
- Fault Queue 101
- Fault Time [Fault 1-8 Time] 102
- Resetting or Clearing a Fault 102
- Flux Braking 103
- Flux Up [Flux Up Mode] 104
- Flying Start 105
- Configuration 106
- Application Example 106
- Input Devices Contactors 108
- Input Power Conditioning 110
- Table 13 Linkable Parameters 112
- COMMUNICATION 113
- 00000100 114
- Adapter # X6543210 114
- Motor Control 115
- Trip Time (Seconds) 117
- Motor Overload 118
- 20 Minutes 119
- 1 Minute 1 Minute 119
- Motor Start/Stop 120
- Precautions 120
- Jm Jload 121
- Figure 26 Resonance 122
- Figure 27 10 Hz Notch 122
- Drive Output Contactor 123
- Cable Termination 123
- Output Frequency 124
- COMMUNICATIONS 126
- Table 14 PF70 Bus Levels 128
- Table 15 PF700 Bus Levels 129
- Power Loss 131
- Decel Input (PF700 only) 134
- Process PI Loop [PI Config] 135
- 10 Volts 136
- Process PI Loop 137
- Normalized Feedback 141
- Normalized SQRT(Feedback) 141
- PI Reference and Feedback 143
- PI Reference Scaling 143
- PI Setpoint 144
- PI Output 144
- PI Gains 144
- Positive and Negative Limits 145
- Output Scaling 145
- Vector v3 147
- Factory Default Bit Values 148
- Reflected Wave [Compensation] 149
- 50 10152025 149
- 30 35404550 149
- Reflected Wave 150
- Example Configuration #1 154
- Example Configuration #2 155
- Analog Out1 Value (Volts) 155
- Scale1 In Value = 155
- Encoder Speed (RPM) 155
- Example Configuration #3 156
- PI Reference 156
- Analog In2 Value (Volts) 156
- DYNAMIC CONTROL 157
- Figure 31 Skip Frequency 158
- . This function affects 159
- Sleep Mode Operation 160
- Interactive functions 161
- Sleep/Wake Levels 161
- Sleep/Wake Sources 161
- Wake Level 162
- Sleep Level 162
- Analog Signal 162
- Speed Reference Operation 167
- Frequency Reference 169
- Figure 36 Trim 170
- Speed Regulator 171
- Figure 37 172
- Speed Regulation Mode 173
- Torque Regulation Mode 173
- Figure 38 174
- Figure 39 175
- Permissive Conditions 176
- Start-Up Start-Up Routines 177
- Basic Start Up (Top Level) 178
- Start-Up 179
- Basic Start Up (Motor Tests) 181
- Basic Start Up (Speed Limits) 182
- Stop Modes [Stop Mode A, B] 197
- Stop Modes 198
- Test Points 200
- Torque Performance 201
- Sensorless Vector 202
- V/Hz Control 202
- Flux Vector Control 203
- Figure 59 Flux Vector 204
- Figure 60 204
- Unbalanced or 205
- Ungrounded Distribution 205
- Figure 61 User Sets 206
- Voltage Class 207
- Watts Loss 208
- Rockwell Automation Support 214
- Documentation Feedback 214
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