Mitsubishi Electronics FR-F700 Carrier frequency and SoftPWM selection, Analog input selection

Page 34

Pr. 72, 240, 260

Carrier frequency and SoftPWM selection

Pr.72 PWM frequency selection

Pr.240 Soft-PWM operation selection

Pr.260 PWM frequency automatic switchover

 

You can change the motor sound.

 

 

 

 

Pr.

Setting

 

Description

Number

Range

 

 

 

 

 

You can change the PWM carrier frequency. The

72

0 to 15/

setting displayed is in [kHz].

0 to 6, 25 *

Note that 0 indicates 0.7kHz, 15 indicates

 

 

 

14.5kHz and 25 indicates 2.5kHz.

 

0

Soft-PWM is invalid

240

1

When "0 to 5" ("0 to 4" for the 75K or more) is set

 

in Pr. 72, Soft-PWM is valid

 

 

 

 

PWM carrier frequency is constant independently

 

0

of load. When the carrier frequency is set to 3kHz

 

or more (Pr. 72 ≥ 3), perform continuous operation

260

 

 

at less than 85% of the rated inverter current.

 

1

Decreases PWM carrier frequency automatically

 

when load increases.

 

 

*The setting range varies according to the inverter capacity. (55K or less/75K or more).

(Note)When Pr. 260="1 (initial value)", if continuous operation is performed at 85% or more of the rated inverter current with Pr. 72 value set to “3” (3kHz) or more, the carrier frequency is automatically reduced. This may cause the motor noise to increase.

Pr. 73, 242, 243, 252, 253, 267

Analog input selection

Pr.73 Analog input selection

Pr.242 Terminal 1 added compensation amount (terminal 2)

Pr.243 Terminal 1 added compensation amount (terminal 4)

Pr.252 Override biasPr.253 Override gain

Pr.267 Terminal 4 input selection

￿You can select the function that switches between forward rotation and reverse rotation according to the analog input polarity, the override function and the input signal specifications.

￿For the terminals 1, 2, 4 used for analog input, voltage input (0 to 5V, 0 to 10V) or current input (4 to 20mA) can be selected.

￿The additional compensation and fixed ratio of analog compensation (override) using terminal 2 as an auxiliary input can be made to multi-speed operation or the speed setting signal (main speed) of the terminal 2 or terminal 4.

( indicates the main speed setting)

 

 

 

 

Compensation

 

Pr. 73

Terminal 2

Terminal 1

Terminal 4 Input

Input Terminal

Polarity Reversible

and

Setting

Input

Input

 

Compensation

 

 

 

 

 

Method

 

0

0 to 10V

0 to ±10V

 

 

 

1

0 to 5V

0 to ±10V

 

Terminal 1

Not function

(Initial

 

 

added

(Indicates that

value)

 

 

 

 

 

 

compensation

a frequency

2

0 to 10V

0 to ±5V

 

 

 

command

3

0 to 5V

0 to ±5V

 

 

signal of

4

0 to 10V

0 to ±10V

 

Terminal 2

negative

5

0 to 5V

0 to ±5V

When the AU

override

polarity is not

6

4 to 20mA

0 to ±10V

 

accepted. )

signal is off

 

 

7

4 to 20mA

0 to ±5V

 

 

×

 

 

10

0 to 10V

0 to ±10V

Terminal 1

 

 

 

 

added

 

11

0 to 5V

0 to ±10V

 

 

 

compensation

 

12

0 to 10V

0 to ±5V

 

 

 

 

 

13

0 to 5V

0 to ±5V

 

 

Function

14

0 to 10V

±

 

Terminal 2

0 to 10V

 

 

15

0 to 5V

0 to ±5V

 

override

 

16

4 to 20mA

0 to ±10V

 

Terminal 1

 

17

4 to 20mA

0 to ±5V

 

added

 

 

compensation

 

 

 

 

 

 

 

 

 

 

Compensation

 

Pr. 73

Terminal 2

Terminal 1

Terminal 4 Input

Input Terminal

Polarity Reversible

and

Setting

Input

Input

 

Compensation

 

 

 

 

 

Method

 

0

0 to 10V

0 to ±10V

 

 

 

1

 

0 to ±10V

 

Terminal 1

Not function

(Initial

 

 

 

 

added

(Indicates that

value)

 

 

 

×

 

 

compensation

a frequency

2

 

0 to ±5V

 

 

command

3

 

0 to ±5V

 

 

signal of

4

0 to 10V

×

When the AU

Terminal 2

negative

5

0 to 5V

 

signal is on

override

polarity is not

6

×

0 to ±10V

According to the

 

accepted. )

 

 

7

 

0 to ±5V

Pr. 267 setting

Terminal 1

 

10

 

0 to ±10V

(Initial value)

 

 

added

 

11

 

0 to ±10V

1:0 to 5V

 

 

compensation

 

 

×

 

2:0 to 10V

 

12

0 to ±5V

 

 

 

 

 

 

 

 

13

 

0 to ±5V

 

 

Function

14

0 to 10V

×

 

Terminal 2

15

0 to 5V

 

override

 

 

 

 

16

 

0 to ±10V

 

Terminal 1

 

17

×

0 to ±5V

 

added

 

 

 

compensation

 

 

 

 

 

 

(1)Added compensation (Pr.242, Pr.243)

A compensation signal can be added to the main speed setting for synchronous operation, etc.

Output frequency

Output frequency

 

 

When voltage across

 

When voltage across

 

terminals 2-5 is 2.5V

 

terminals 2-5 is 2.5V

 

(5V)

 

(5V)

 

 

When voltage

 

 

When voltage

 

 

 

across terminals

 

across terminals

 

 

 

2-5 is 0V

 

2-5 is 0V

 

 

 

 

 

 

-5V -2.5V

0 +2.5V +5V Terminal 1

-5V -2.5V

0 +2.5V

+5V Terminal 1

(-10V) (-5V)

(+5V) (+10V)

(-10V) (-5V)

(+5V)

(+10V)

 

Forward rotation

Reverse rotation

Forward rotation

STF

 

STF

 

 

 

Forward rotation

Reverse rotation Forward rotation

 

(a) When Pr. 73 setting is 0 to 5

(b) When Pr. 73 setting is 10 to 15

The terminal 1 (frequency setting auxiliary input) signal is added to the main speed setting signal of the terminal 2 or 4.

(2)Override function (Pr.252, Pr.253)

When an override is selected, the terminal 1 or 4 is used for the main speed setting and the terminal 2 for the override signal. (When the main speed of the terminal 1 or terminal 4 is not input, compensation by the terminal 2 is invalid.)

 

 

200

 

 

 

(%)

150

 

 

 

value

 

 

Pr.252

 

 

Initial value

 

Override

100

 

Pr.253

 

(50% to 150%)

 

 

 

50

 

 

 

 

 

 

 

 

0

 

 

 

 

0V

2.5V

5V

 

 

 

(5V)

(10V)

Voltage across terminals 2-5

When an override is selected, the terminal 1 or 4 is used for the main speed setting and the terminal 2 for the override signal (50% to 150% at 0 to 5V or 0 to 10V). (When the main speed of the terminal 1 or 4 is not input, compensation by the terminal 2 is invalid.)

When Pr. 22 Stall prevention operation level = "9999", the value of the terminal 1 is as set to the stall prevention operation level.

35

Pr. indicates simple mode parameters and Pr. indicates extended parameters. When setting parameters, refer to the instruction manual (applied) and understand instructions.

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Contents FR-F700 Energy savings for buildings and factories as a whole Outline Dimension Drawings Warranty InquiryConnection with Peripheral Devices Inverter FR-F700Amount Why Can the Inverter Save Energy?Damper control discharge side Inverter controlType FR-F720-K Standard SpecificationsRating Type FR-F740-KOperating status Common specificationsCan be selected Open collectorFR-F720-0.75K 110 FR-F720-1.5K 125 Outline Dimension DrawingsInverter Type FR-F740-0.75K to 2K are not provided With a cooling fanFR-F720-30K is Wiring coverFR-F740-15K, 18.5K Not provided with a295 185 FR-HEL-H75K FR-F740-90K 150 130 Inverter Type MassFR-F740-75K 140 120 310 190 FR-HEL-H90KMass kg DC reactor suppliedFR-F740-110KFR-HEL-H110K MassRemove the eye nut after installation of the product MassFR-F740-450KFR-HEL-H450K Remove the eye nut after installation of the productFR-F740-400KFR-HEL-H400K Parameter ListPanel FR-DU07 Panel cutting dimension drawingOutline drawing M3 screw CableMain circuit Terminal Connection DiagramOption connector Control circuitType Terminal Specification ExplanationTerminal Name Description Relay Relay output 1 alarmPreset detected frequency. *1 OutputExplanation of the Operation Panel FR-DU07 Setting Operation mode switchoverBasic operation Remarks Name Setting Range Increments Initial ValueParameter List Function24 to Jump102 100101 103143 135139 144180 178179 181263 261262 264882 867872 883Maximum/minimum Explanations of ParametersFrequency Jog operation Starting frequencyInput compensation of multi Speed and remote settingStall prevention operation Pr , 23, 48, 49, 66, 148, 149, 154, 156Pr , 70 Selection of regeneration unit SettingSpeed display and speed Pr , 54, 158, 170, 171, 268, 563, 564, 867 Pr.59 Setting Description Pr Remote setting functionConnection diagram Pr , 58, 162 to 165, 299Occurrence Retry function at alarmPr Energy saving control selection Use the constant torque motorPr , 240 Carrier frequency and SoftPWM selectionAnalog input selection Pr , 242, 243, 252, 253Pr. Noise elimination at the analog 74 input Pr. Reset selection, disconnected PU 75 detectionPr Output function of alarm code Pr Prevention of parameter rewriteOff Pr Pr Operation mode selectionPr. Simple magnetic flux vector 80, 90 control LED IndicationPr to Adjustable 5 points V/FCommunication initial setting Pr to 124, 331 to 337, 341 to 343Analog input bias/gain calibration Pr Pr Pr , C2902 to C7905Pr to 134, 575 to 577 PID control Analog input display unit changing PrSelection of action conditions Second function signal RTPr. Parameter unit display language 145 selection Pr Pr toPr to 196 output terminal Pr. Operation selection of the 161 operation panelTerminal assignment Function assignmentPr Increase cooling fan life Pr. Selection of motor stopping 250 method and start signalInput/output phase failure Pr to 247 Slip compensationPr Parameter for manufacturer setting. Do not set 261 to 266 power failurePower failure stop mode Pr.261 = Operation at instantaneousPr to 557 monitor signal To determine Maintenance time of partsPr to 497 REM signal Remote output functionPr to 899 Energy saving monitor Pr. Regeneration avoidanceFree parameter 882 to 886 functionParameter clear, parameter copy Pr PU contrast adjustmentPr. C0900, C1901 Adjustment of terminal FM AM calibration Pr , CL, ALLC, Er.CL, PcpyFunction Name Description Indication Error message *2 Minor fault *4 Major failures *5Protective Functions Regenerative overvoltage shutSupply short circuit RS-485 terminals power Was shorted Options Instructions MotorOption and Peripheral Devices OptionsOthers Controller/SpeedSeries ManualStand-alone option Specifications, Structure, etcName type Name type Specifications, Structure, etc FR-BR-HK FR-BU-HKConnection example Cable Outline dimension drawingsExternal connection diagram Resistor unit Resistance Mass Type ValueHigh power factor Converter Outline dimension Unit mm FR-HC- HKApplication condition Circuit configuration and connectionApplication of the sine wave filter Capacitor for sine wave filterPeripheral devices list EMC Filter Standard BreakerOn mA Precautions for Operation/Selection Precautions for Peripheral Device Selection Leakage currents NoiseNoise reduction examples Input Target Measures Power Capacity Input Target Measures PowerThree 7kW Reference materials Phase Connect the AC reactor or DC reactor50Hz torque reference Application to Motor60Hz torque reference Suppressing the surge voltage on the inverter sideFR-F500 L FR-F700 Warranty FA Center in Asean FA Center in North AmericaFA Center in Taiwan FA Center in Korea
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