616
SIEPCYEUOQ2V01A Q2V Technical Manual
■
B: Rev Trq Lim
Setting Value
Function
Description
B
Rev Trq Lim
Enters the load torque limit if the motor rated torque is 100%.
Note:
When you use
L7-01 to L7-04
and analog inputs to set torque limits for the same quadrant, it will enable the lower torque limit.
■
C: RegenTrqLim
Setting Value
Function
Description
C
RegenTrqLim
Enters the regenerative torque limit if the motor rated torque is 100%.
Note:
When you use
L7-01 to L7-04
and analog inputs to set torque limits for the same quadrant, it will enable the lower torque limit.
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D: GenerTrqLim
Setting Value
Function
Description
D
GenerTrqLim
Enters the torque limit that is the same for all quadrants for forward, reverse, and regenerative operation if the motor rated
torque is 100%.
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E: OvUntrq Level
Setting Value
Function
Description
E
OvUntrq Level
Enters a signal to adjust the overtorque/undertorque detection level.
When
A1-02 = 0, 5 [Control Method = V/f Control, PM OLVector]
, the drive rated current is 100%. When
A1-02
= 2, 6, 8 [OLVector, PM AOLVector, or EZ Vector]
, the motor rated current is 100%.
Note:
Use this function with
L6-01 [Trq Det1 Select]
. This parameter functions as an alternative to
L6-02 [Trq Det1 Level]
.
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F: PID Fbk
Setting Value
Function
Description
F
PID Fbk
Enter the PID feedback value as a percentage of the maximum output frequency.
When you use this function, set
b5-01 = 1 [PID Enable = Enabled]
.
■
10: PID SetPoint
Setting Value
Function
Description
10
PID SetPoint
Enters the PID setpoint as a percentage of the maximum output frequency.
When you use this function, set
b5-01 = 1 [PID Enable = Enabled]
.
Note:
Configuring this function disables the frequency reference set with
b1-01 [Freq. Ref. Sel. 1]
.
■
11: Diff PIDFbk
Setting Value
Function
Description
11
Diff PIDFbk
Enters the PID differential feedback value if the full scale analog signal (10 V or 20 mA) is 100%.
The drive uses the deviation between the PID feedback and the differential feedback value signals to calculate the
PID input.
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
V/f
OLV
OLV/PM
OLV/PM AOLV/PM
EZOLV
Содержание Q2V Series
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Страница 12: ...12 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 18: ...i 2 Legal Information 18 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 26: ...1 2 Features and Advantages of Control Methods 26 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 38: ...2 8 Installation Methods 38 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 70: ...3 3 Main Circuit Wiring 70 SIEPCYEUOQ2V01A Q2V Technical Manual Models B006 B012...
Страница 102: ...3 17 Motor Application Precautions 102 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 138: ...4 12 Test Run Checklist 138 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 143: ...Standards Compliance 5 5 2 European Standards SIEPCYEUOQ2V01A Q2V Technical Manual 143 EU Declaration of Conformity...
Страница 144: ...5 2 European Standards 144 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 145: ...Standards Compliance 5 5 2 European Standards SIEPCYEUOQ2V01A Q2V Technical Manual 145...
Страница 146: ...5 2 European Standards 146 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 266: ...7 10 Troubleshooting Without Fault Display 266 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 284: ...8 6 Storage Guidelines 284 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 312: ...10 10 Peripheral Devices and Options 312 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 430: ...11 21 Parameters Changed by PM Motor Code Selection 430 SIEPCYEUOQ2V01A Q2V Technical Manual...
Страница 731: ...SIEPCYEUOQ2V01A Q2V Technical Manual 731 Z Z pulse Auto Tuning 125...
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