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F0.22 Upper limit frequency

offset

0.00Hz~F0.19 (Maximum frequency)

0.00Hz

F0.23 Lower limit frequency

0.00Hz~F0.21 (Upper limit frequency)

0.00Hz

F0.24 Running direction

0:Same direction;

1: Opposite direction

0

F0.26 AI simulation quantity

accuracy

0: 0.01Hz;

1: 0.05Hz;

2: 0.1Hz;

3: 0.5Hz

1

Down-conversion curve can make the inverter output frequency quickly decline, to avoid power

shortage lead to undervoltage. curve 4 is the fastest down, and curve 1 is the slowest. after modify the

parameters, power-on again then it effective.

F1 group Input terminals group Change

Code

Parameter name

Setting range

Factory

setting Change

F1.00 DI1 terminal function selection

0

51

1

F1.01 DI2 terminal function selection

2

F1.02 DI3 terminal function selection

8

F1.03 DI4 terminal function selection

9

F1.04 DI5 terminal function selection

12

F1.05 DI6 terminal function selection

13

The functions of digital multi-function input terminals DI1-DI6 (where DI5 can be used as high-speed

pulse input terminals) can be set by parameters F1.00-F1.05. The optional functions are shown in the table

below.

Setting

value

Function

Description

0

No function

The terminal for not use can be set to "no function" to prevent

accidental operation.

1

Forward run

(FWD)

External terminals are used to control the FWD/REV run mode of

inverter

2

Reverse run

(REV)

3

Three-wire

operation control

This terminal is used to determine the inverter's three-wire control

mode. For details, please refer to the instructions of function code F1.10

("terminal command mode).

4

Forward

JOG(FJOG)

FJOG means Forward JOG running, RJOG means,reverse JOG running.

For Jog running frequency and Jog Ac/deceleration time, please refer to

the description of the function code F7.00, F7.01, F7.02.

5

Reverse

JOG(RJOG)

6

Terminal UP

Modify frequency increment/decrement command when the frequency is

referenced by external terminal. Adjust up/down the set frequency when

the digital setting is selected as the frequency source.

7

Terminal DOWN

8

Free stop

The inverter output is blocked, at the time, the parking process of motor

is not controlled by the inverter. This way is same as the principle of

free stop described in F3.07.

9

Fault reset

(RESET)

The function makes use of terminal for fault reset. It has same function

with RESET key on the keyboard. This function can be used to realize

remote fault reset.

10

Run pause

The inverter slows down and stops, but all operating parameters are

memorized. Such as PLC parameters, PID parameters. This terminal

signal disappears, the inverter reverts to the previous state of running

before parking.

11

External fault

normally open

input

When the signal is sent to the inverter, inverter trips fault Err.15, and

performs troubleshooting according to fault protection action (details

refer to function code F8.17)

Option 12 ~ 51omitted, If more choices needed, please contact us.

F1.10 Terminal command mode

Two-wire type 1;

Two-wire type 2

Three-wire type 1;

Three-wire type 2

0

F1.11 Terminal UP/DOWN change

rate

0.001Hz/s

65.535Hz/s

1.000Hz/s

F1.12 AIC1 Minimum input

0.00V

F1.14

0.30V

F1.13 F1.12corresponding setting

-100.0%

+100.0%

0.0%

F1.14 AIC1 Maximum input

F1.12

+10.00V

10.00V

F1.15 F1.14 corresponding setting

-100.0%

+100.0%

100.0%

F1.26 HDI Minimum input

0.00kHz

F1.28

0.00kHz

F1.27 F1.26 corresponding setting

-100.0%

+100.0%

0.0%

F1.28 HDI Maximum input

F1.26

100.00kHz

50.00kHz

F1.29 F1.28 corresponding setting

-100.0%

+100.0%

100.0%

F1.30 DI Filtering time

0.000s

1.000s

0.010s

F1.31 AI1Filtering time

0.00s

10.00s

0.10s

F1.34 HDIFiltering time

0.00s

10.00s

0.00s

F1.35 DI Terminal Mode Selection 1

Unit digit :Di1 Terminal active state set

0:High level active 1: Low level active

Ten digit:Di2 Terminal active state

set(0~1,same as the units digit)

Hundreds digit:Di3 Terminal active state

set(0~1,same as the units digit)

Thousand digit:Di4 Terminal active state

set(0~1,same as the units digit)

Ten thousands digit:Di5 Terminal active state

set(0~1,same as the units digit

00001

F1.36 DI Terminal Mode selection 2

Unit digit:Di6 ;

0:High level active;1:Low level active

00000

F1.37 DI1 delay time

0.0s

3600.0s

0.0s

F1.38 DI2 delay time

0.0s

3600.0s

0.0s

F1.39 DI3 delay time

0.0s

3600.0s

0.0s

F1.40 Define the input terminal repeat 0:Unrepeatable;

1:Repeatable

0

Summary of Contents for PI500A-S 004G1

Page 1: ...PI500A S Series Special Solar Inverter For Water Pump English Manual www powtran com...

Page 2: ...y period please fill out the warranty card and fix it to our authorized dealer 2 Instructions on nameplate Model Designation Powtran Inverter PI 500A S 2R2 G 3 Rated Output Power 2R2 2 2kW 004 4kW Ser...

Page 3: ...63 185 90 146 154 65 174 5 72 5 1 6 PI500A S 0R7G2 0 75 PI500A S 1R5G2 1 5 PI500A S 2R2G2 2 2 163 185 90 166 174 65 174 5 72 5 1 8 PI500A S 004G2 4 238 260 120 182 190 90 250 5 2 7 PI500A S 5R5G2 5 5...

Page 4: ...ey is subject to F6 00 Enter Key Enter the menu screen step by step set the parameter confirmation Quick Multifunction Key This key function is determined by the function code F6 21 Keyboard Encoder F...

Page 5: ...panel control terminals and serial communication port They can be switched through a variety of ways Frequency source Total 8 frequency sources digital analog voltage multi speed and serial port They...

Page 6: ...ments of all terminals select accessories correctly such as voltmeter input power supply etc 5 Please check the wiring correctly after completion and power on after confirmation 7 The load is a single...

Page 7: ...motor nameplate Note If the starting current is too large or the motor does not run check whether the V and W phases are connected then check E8 29 3 and then restore the factory value y0 00 3 U V W...

Page 8: ...24 HDI DI5 pulse frequency HDI DI5 High speed pulse input frequency display unit 1Hz 1Hz d0 25 Communication set value Frequency torque or other command values set by communication port 0 01 d0 27 Mas...

Page 9: ...cked at the time the parking process of motor is not controlled by the inverter This way is same as the principle of free stop described in F3 07 9 Fault reset RESET The function makes use of terminal...

Page 10: ...to the function code F7 26 F7 27 s instructions 26 Frequency 1 reaches output Please refer to the function code F7 28 F7 29 s instructions 27 Frequency 2 reaches output Please refer to the function c...

Page 11: ...0 F4 10 V F overexcitation gain 0 200 80 F4 11 V F oscillation suppression gain 0 100 0 F4 12 V F Separated voltage source 0 9 0 F4 13 Voltage Digital Setting 0V motor rated voltage 0V F4 14 Voltage r...

Page 12: ...eleration time 2 0 00Hz F0 19 Maximum frequency 0 00Hz F7 15 Switching frequency point between deceleration time 1 and deceleration time 2 0 00Hz F0 19 Maximum frequency 0 00Hz F7 16 Forward reverse r...

Page 13: ...momentary power cut 0 00s 100 00s 0 50s F8 29 Judgment voltage of momentary power cut action 50 0 100 0 Standard bus voltage 80 F8 30 Load drop protection selection 0 Invalid 1 Valid 0 F8 31 load drop...

Page 14: ...valid after E0 03 awakens the delay time frequency inverter to start E0 04 Upper limit of MPPT search voltage 0 0 1000 0V Confirmed model typ Search value of upper limit voltage in MPPT search proces...

Page 15: ...tion Same as E1 19 0 E1 34 8 stage running time T8 0 0s h 6500 0s h 0 0s h E1 35 8 stage ac deceleration time selection Same as E1 19 0 E1 36 9 stage running time T9 0 0s h 6500 0s h 0 0s h E1 37 9 st...

Page 16: ...motor 0 b0 01 Rated power 0 1 1000 0kW Confirmed model typ b0 02 Rated voltage 1 2000V Confirmed model typ b0 03 Rated current 0 01A 655 35A Inverter power 55kW 0 1A 6553 5A Inverter rate 55kW Confirm...

Page 17: ...15 Current of the second fault y1 16 Bus voltage of the second fault y1 17 Input terminal status of the second fault y1 19 Output terminal status of the second fault y1 20 Power on time of the second...

Page 18: ...s high 1 Cancel the external force or install braking resistor 2 Set the voltage to the normal range 8 Err 08 Control power failure 1 The range of input voltage is not within the specification 2 frequ...

Page 19: ...an the set value of E2 11 Check PID feedback signal or set E2 11 to an appropriate value 40 Err 40 Quick current limiting fault 1 Whether the load is too large or the motor stall occurs 2 The type sel...

Page 20: ...ing of PI500 PI500A S keyboard installation opening Opening size of external mounting panel T 1 0 1 5mm 126 5 0 2 Mounting panel Opening panel126 5 82 82 0 2 Dimension drawing of keyboard installation...

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