Inova Md310 Instruction manual

MD310 Quick Start Manual

General-Purpose AC Drive

Version 0.1

Dated 14th OCT, 2013

CONTENTS

CHAPTER 1 PRODUCT INFORMATION ......................................................................................................................1

1.1 Designation........................................................................................................................................................1

1.2 Nameplate..........................................................................................................................................................1

1.3 General Specifications.......................................................................................................................................2

CHAPTER 2 WIRING.....................................................................................................................................................3

2.1 Typical Wiring.....................................................................................................................................................3

2.2 Terminals ...........................................................................................................................................................5

CHAPTER 3 EASY SETUP............................................................................................................................................7

3.1 Logic Of Control.................................................................................................................................................7

3.2 Step By Step Setup............................................................................................................................................9

CHAPTER 4 TROUBLESHOOTING............................................................................................................................22

4.1 Faults And Solutions........................................................................................................................................22

4.2 Common Symptoms And Diagnostics .............................................................................................................25

CHAPTER 5 FUNCTION CODE TABLE......................................................................................................................26

5.1 General Function Codes..................................................................................................................................26

5.2 Monitoring Function Codes..............................................................................................................................52

Ver0.1 Page 1 of 53

CHAPTER 1 PRODUCT INFORMATION

1.1 Designation

Mark

2T 0.4 0.7 …18.5

T0.4 0.75 …18.5

MD310

X.X

Yes

Built-in Braking Unit

Mark

Applicable motor, [kW]

Single-phase 220 V

Three-phase 220 V

Three-phase 380 V

MD310 series AC drive

Voltage Class

1.2 Nameplate

MODEL: MD310T0.7B

INPUT: 3~ 380-440V, 3.4A, 50Hz/60Hz

OUTPUT: 3~ 0-440V, 2.1A, 0-600Hz, 0.75kW

Suzhou Inovance Technology Co.,Ltd.

S/N: 013012024C700087

Nameplate

AC drive model

Rated input

Rated output

Manufacturer

Barcode

S/N code

Ver0.1 Page 2 of 53

1.3 General Specifications

MD310

T0.4B

MD310

T0.7B

MD310

T1.5B

MD310

T2.2B

MD310

T3.7B

MD310

T5.5B

MD310

T7.5B

MD310

T11B

MD310

T15B

MD310

T18.5B

H [mm]

W [mm]

D [mm]

A [mm]

B [mm]

H1 [mm]

1.9 3.4 5.0 5.8 10.5 14.6 20.5 26.0 35.0 38.5

[kW] 0.4 0.75 1.5 2.2 3.7 5.5 7.5 11 15 18.5

[HP] 0.5 1 2 3 5 7.5 10 15 20 25

1.5 2.1 3.8 5.1 9.0 13.0 17.0 25.0 32.0 37

1.0 1.5 3.0 4.0 5.9 8.9 11.0 17.0 21.0 24.0

[kW] ≥0.15 ≥0.15 ≥0.15 ≥0.25 ≥0.30 ≥0.40 ≥0.50 ≥0.80 ≥1.00 ≥1.30

[Ω] ≥300 ≥300 ≥220 ≥200 ≥130 ≥90 ≥65 ≥43 ≥32 ≥25

118

198

248

284

209

185

234

270

Frame Size

Voltage Class

Drive Model

Three-phase 380V

Max. Output Frequency

300 Hz for SVC control, 600Hz for V/F control

Recommended

Braking Resistor

Drive Output

Applicable

Motor

Output Current, [A]

Power Capacity, [kVA]

Overload Capacity☆

Cooling Method

Air

Fan

108

130

140

180

108

122

160

158

164

148

171

175.5

Three-phase 380 to 440 VAC,-15% to 20% (323 to 528 VAC)

Three-phase 380 VAC (proportional to input voltage)

260

298

Mounting Hole Diameter [mm]

Ø5

Ø6

120% for 1 hour & 150% for 60 Sec &180% for 2 Sec

Max. Output Voltage

Dimension★

Drive Input

Rated Input Voltage

Rated Input Current(A)

Rated Input Frequency

50/60 Hz, ±5% (47.5 to 63 Hz)

128

☆: At 6 kHz carrier frequency without derating

★: The mounting dimensions are shown below.

FEW/RED

310

FED

REW

FED

REW

LOCAL

RUN

ERR

Formodelsabove7.5kW,thefan

isinstalledonthetopoftheAC

drive.

310

FED

REW

FED

REW

LOCAL

RUN

ERR

Figure1..Modelof0.4to2.2kW Figure2..Modelof3.7to18.5kW

Ver0.1 Page 3 of 53

CHAPTER 2 WIRING

2.1 Typical Wiring

Wiring Of Three-Phase 220/380 VAC (Keypad Control, F6-00 = 0)

DI1

DI2

DI3

DI4

DI5

COM

(-)

P(+)

Brakingresistor(optional)

+24V

MD310

T/C

T/B

T/A

Multi-functionrelayoutput

(Faultoutput)

+10V

AI1

GND

AO1

Analogoutput

(Nofunctionassigned)

+24V

COM

GND

485-

485+

Analoginputs

(Frequencysources)

RS485

Interfacefortheexternalkeypad

COM

DO1

CME

Opencollector1

(High-speedpulseoutput)

Extensioncardinterface

Opencollector2

(Runningstate)

Multi-function

open-collectoroutput

AI2

I2V2

Three-phase220/380V

powersupply

MCCB

Wiring Of Three-Phase 220/380 VAC (Terminal Control, F6-00 = 1)

DI1

DI2

DI3

DI4

DI5

COM

(-) P(+) BR

Braking resistor (optional)

+24V

MD310

T/C

T/B

T/A

Multi-function relay output

(Fault output)

+10V

AI1

GND

AO1 Analog output

(No function assigned)

+24V

COM

GND

485-

485+

Analog inputs

(Frequency sources)

RS485

Interface for the external keypad

COM

DO1

CME

Open collector 1

(High-speed pulse output)

Extension card interface

Open collector 2

(Running state)

Multi-function

open-collector output

AI2

I2 V2

Three-phase 220/380 V

power supply

MCCB

FWD

Multi-reference terminal 2

FJOG

RESET

Multi-reference terminal 1

Ver0.1 Page 4 of 53

Wiring Of Single-Phase 220 VAC (Keypad Control, F6-00 = 0)

DI1

DI2

DI3

DI4

DI5

COM

Single-phase220V

powerSupply

(-)

P(+)

Brakingresistor(optional)

+24V

MD310

T/C

T/B

T/A

Multi-functionrelayoutput

(Faultoutput)

+10V

AI1

GND

AO1

Analogoutput

(Nofunctionassigned)

MCCB

+24V

COM

GND

485-

485+

Analoginputs

(Frequencysources)

RS485

Interfacefortheexternalkeypad

COM

DO1

CME

Opencollector1

(High-speedpulseoutput)

Extensioncardinterface

Opencollector2

(Runningstate)

Multi-function

open-collectoroutput

AI2

I2V2

Wiring Of Single-Phase 220 VAC (Terminal Control, F6-00 = 1)

DI1

DI2

DI3

DI4

DI5

COM

Single-phase 220 V

power Supply

(-) P(+) BR

Braking resistor (optional)

+24V

MD310

T/C

T/B

T/A

Multi-function relay output

(Fault output)

+10V

AI1

GND

AO1 Analog output

(No function assigned)

MCCB

+24V

COM

GND

485-

485+

Analog inputs

( Frequency sources)

RS485

Interface for the external keypad

COM

DO1

CME

Open collector 1

(High-speed pulse output)

Extension card interface

Open collector 2

(Running state)

Multi-function

open-collector output

AI2

I2 V2

FWD

Multi-reference terminal 2

FJOG

RESET

Multi-reference terminal 1

Ver0.1 Page 5 of 53

2.2 Terminals

Terminals Of Main Circuit

Table 2-1: Main circuit terminals of three-phase

Terminal

Terminal Name

Description

R, S, T

Three-phase power supply input terminals

Connect to the three-phase AC power supply

P(+), (-)

Positive and negative terminals of DC bus

Common DC bus input point

P(+), BR

Connecting terminals of braking resistor

Connect to a braking resistor

U, V, W

Output terminals

Connect to a three-phase motor.

Grounding terminal

Must be grounded.

Table 2-2: Main circuit terminals of single-phase

Terminal

Terminal Name

Description

L1, L2

Single-phase power supply input terminals

Connect to the single-phase 220 VAC power supply.

P(+), (-)

Positive and negative terminals of DC bus

Common DC bus input point.

P(+), BR

Connecting terminals of braking resistor

Connect to a braking resistor.

U, V, W

Output terminals

Connect to a three-phase motor.

Grounding terminal

Must be grounded.

Ver0.1 Page 6 of 53

Terminals Of Control Circuit

Terminal

Terminal Name

Description

+10V-GND

+10 VDC power supply

Provide +10 VDC power supply externally. Usually, it provides power supply

to the external potentiometer with resistance range of 1 to 5 kΩ.

Maximum output current: 10 mA

+24V-COM

+24 VDC power supply

Provide +24 VDC power supply externally. Usually, it provides power supply

to DI/DO terminals and external sensors.

Maximum output current: 200 mA

Input terminal of external power supply

Connect to +24 VDC by default. When DI1 to DI5 need to be driven by the

external signal, OP needs to be connected to the external power supply and

be disconnected from +24 VDC.

AI1-GND

Analog input 1

AI1 input voltage range: 0 to 10 VDC

AI2 input range: 0 to 10 VDC or 4 to 20 mA

Impedance: 22 kΩ

AI2-GND

Analog input 2

DI1-COM

Digital input 1

Optical coupling isolation, compatible with dual-polarity input

Impedance: 2.4 kΩ.

Input voltage range: 9 to 30 VDC

DI2-COM

Digital input 2

DI3-COM

Digital input 3

DI4-COM

Digital input 4

DI5-COM

High-speed pulse input

Besides features of DI1 to DI4, it can be used for high-speed pulse input.

Maximum input frequency: 20 kHz.

AO1-GND

Analog output 1

Voltage or current output, determined by jumper J5 on the control board.

Output voltage range: 0 to 10 VDC.

Output current range: 0 to 20 mA.

DO1-CME

Digital output 1

Multi-function open-collector output

Voltage range: 0 to 24 VDC.

Current range: 0 to 50 mA.

Output pulse frequency range: 0 to 50 kHz. For jumper J6, CME and COM

are shorted by default.

FM-COM

High-speed pulse output

T/A-T/B

Normally closed terminal

Contact driving capacity:

250 VAC, 0.2A

30 VDC, 1 A

T/A-T/C

Normally open terminal

Ver0.1 Page 7 of 53

CHAPTER 3 EASY SETUP

3.1 Logic Of Control

Complete Timing Diagram

F0-08

[x.xHz]

F0-18

F0-17 F6-09 F6-08

[x.xSec]

[x.x% ] [x.x% ]

F6-11

DC injection braking 2 frequency threshold

F6-04

[x.xSec]

F6-03 F6-08 F6-09

[x.xHz] [x.x% ] [x.x% ]

F6-06 [x.xSec]: F6-13 [x%]: F6-14 [ x.xSec]:

DC injection braking 1 active time(if F6-00=0) DC injjection braking 2 level DC injection braking 2 active time

Pre-excitation active time (if F6-00=2)

F6-05 [x%]: F6-12 [ x.xSec] (Default: 0.0Sec)

DC injection braking 1 level (if F6-00=0) DC injection braking 2 delay time

Pre-excitation level (if F6-00=2)

DC Injection/

Pr e-exc itation

Motor Cur r ent

20%

40%

Stages

100%

50%

OFF

Time

DI 1

For war d

IGBT's Active

Fr equenc y

output

command

[ x.xHz]:Default 0.0Hz

Ver0.1 Page 8 of 53

Timing Diagram Description

Event

Description

Function code

Status

-The AC drive waits for the RUN signal.

-----

Inhabit

-The AC drive receives the Forward RUN command.

-----

RUN

-The IGBT becomes active.

-----

-DC Injection Braking 1/Pre-excitation is enabled if F6-06 > 0.

F6-05

(if F6-00 = 0, it is "DC Injection Braking 1";

if F6-00 = 2, it is "Pre-excitation")

F6-06

-DC Injection Braking 1/Pre-excitation is disabled.

-----

RUN

-The startup frequency becomes active if F6-04 > 0.

F6-03

F6-04

-The startup frequency becomes inactive.

-----

RUN

- The motor ramps up to the expected frequency.

F0-17

-S-curve active

F6-08

F6-09

-Motor runs at expected frequency.

F0-08

RUN

-The Forward RUN command is cancelled.

-----

RUN

-The motor ramps down to zero frequency.

F0-18

-S-curve active

F6-08

F6-09

-The frequency output command reaches the DC Injection Braking 2

frequency

F6-11

RUN (if F6-12 = 0)

Inhabit (if F6-12 > 0)

threshold.

-The IGBT shall become inactive if DC Injection Braking 2 delay time

is not zero.

F6-12

-After the delay time set in F6-12, the IGBT becomes active again

-----

-DC Injection Braking 2 is enabled if F6-14 > 0

F6-13

RUN

F6-14

-DC Injection Braking 2 is disabled.

-----

Inhabit

-The IGBT turns inactive.

-----

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