TECO e510 series Instruction Manual
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TECO e510 series Instruction Manual

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  • Page 2: Table Of Contents

    Table of Contents Preface Chapter 1 Safety Precautions Before Power UP During Power UP Before Operation During Operation Inverter Disposal Chapter 2 Model Description Nameplate Data Model Identification Standard Product Specification Chapter 3 Environment & Installation Environment Installation 3.2.1 Installation method 3-21 3.2.2 Installation space 3.2.3 De-rating curves...

  • Page 3: Table Of Contents

    3-64 3.9.2 Description of Protective Cover Chapter 4 Software Index Keypad Description 4.1.1 Operator Panel Functions 4.1.2 Digital display Description 4.1.3 Digital display setup 4.1.4 Example of Keypad Operation 4.1.5 Operation Control Programmable Parameter Groups 4-28 Parameter Function Description 4-81 Specification Description on Built-in PLC Function 4-81 4.4.1 Basic Instruction Set...

  • Page 4: Preface

    Preface To extend the performance of the product and ensure personnel safety, please read this manual thoroughly before using the inverter. Should there be any problem in using the product that cannot be solved with the information provided in the manual, contact Our’s technical or sales representative who will be willing to help you.

  • Page 5: Chapter 1 Safety Precautions

    Chapter 1 Safety Precautions 1.1 Before Power Up Danger  Make sure the main circuit connections are correct Single phase L1(L),L3(N), Three phase L1(L),L2,L3(N) are power-input terminals and must not be mistaken for T1,T2 and T3. Otherwise, inverter damage can result. Caution ...

  • Page 6: During Power Up

    1.2 During Power Up Danger  When the momentary power loss is longer than 2 seconds, the inverter will not have sufficient stored power for its control circuit. Therefore, when the power is re-applied, the run operation of the inverter will be based on the setup of following parameters: ...

  • Page 7: Inverter Disposal

    Danger  To avoid electric shock, do not take the front cover off while power is on.  The motor will restart automatically after stop when auto-restart function is enabled. In this case, care must be taken while working around the drive and associated equipment .

  • Page 8: Chapter 2 Model Description

    Chapter 2 Model Description Nameplate Data 2.2 Model Identification E510 - 2 P5 - H 1 F N4S Supply voltage 2:200V Class Structure: 4:400V Class Horsepower N4S: IP66/Built-in VR+Switch 200V Class P5: 0.5 HP N4:IP66 01: 1 HP N4R:IP66/Built-in VR 02: 2 HP Blank:IP20 03: 3 HP...

  • Page 9: Standard Product Specification

    2.3 Standard Product Specification IP20 / NEMA 1 Type Supply Filter Frame Model (HP) (KW) voltage (Vac) Size ◎ E510-2P5-H1F 1 ph, ◎ E510-201-H1F 0.75 200~240V (+10%-15%) ◎ E510-202-H1F 50/60 Hz ◎ E510-203-H1F ◎ E510-2P5-H 1 & 3 ph, ◎ E510-201-H 0.75 200~240V...
  • Page 10 IP66 / NEMA 4X Type Supply Filter Switch Frame Model voltage (KW) Size (Vac) ◎ ◎ ◎ E510-2P5-H1FN4S 1 ph ◎ ◎ ◎ E510-201-H1FN4S 0.75 200~240V +10%-15% ◎ ◎ ◎ E510-202-H1FN4S 50/60Hz ◎ ◎ ◎ E510-203-H1FN4S ◎ ◎ ◎ E510-2P5-HN4R 1 &...

  • Page 11: Chapter 3 Environment & Installation

    Chapter 3 Environment & Installation 3.1 Environment Installation environment has a direct effect on the correct operation and the life expectancy of the inverter, Install the inverter in an environment complying with the following conditions: Protection Protection class IP20 / NEMA 1 & IP66 / NEMA 4X (Depending on models) Suitable Environment IP20 / NEMA 1 type: –10 ~ 50℃...
  • Page 12 Electrical ratings of terminals Model Horsepower Power Specification Voltage (Volt) Current(A) 0.5/1 200V~240V Frame1 380V~480V 2/3/5 200V~240V Frame2 380V~480V 7.5/10/15/20 200V~240V Frame 3/4 7.5/10/15/20/25 380V~480V The maximum rms symmetrical short circuit ratings are as follows. Device Rating Short circuit Maximum Rating(A) Voltage (Volt) voltage...

  • Page 13: Installation

    3.2 Installation 3.2.1 Installation method 3.2.1.1 IP20 / NEMA 1 standard installation (a)Single/Three phase: 200V 0.5~1HP; Single phase: 200V 0.5~1HP; Three phase: 200V 2HP; 400V 1~2HP; Frame1 Frame1(NEMA1) Screw M4 Screw M4 Screw M4 Screw M4 b)Single/Three phase: 200V 2~3HP; Single phase: 200V 2~3HP; Three phase: 200V 5HP; 400V 3~5HP; Frame2 Screw M4 Screw M4...
  • Page 14 (c)Three phase: 200V 7.5~10HP; 400V 7.5~15HP; Frame3 Screw M4 Screw M4 Frame3(NEMA1) Screw M4 Screw M4...
  • Page 15 (d)Three phase: 200V 15~20HP; 400V 20~25HP; Frame4 Screw M5 Screw M5 Frame4(NEMA1) Screw M5 Screw M5...
  • Page 16 (e) Three phase: 400V 20~25HP; (With Fliter Models) Frame4 Screw M5 Screw M5 (f)400V 20~25HP; (with filter) (E510-420-H3FPT/ E510-425-H3FPT) Screw M5 M5 螺丝 M5 螺丝 Screw M5...
  • Page 17 3.2.1.2 IP66/NEMA 4X standard installation (a)Single/Three phase : 200V 0.5~1HP ; Single phase : 200V 0.5~1HP; Three phase : 200V 2HP ; 400V 1~2HP ; Screw M5 Screw M5 (b)Single / Three phase: 200V 2~3HP ; Single phase : 200V 2~3HP ; Three phase : 200V5HP ; 400V 3~5HP ;...
  • Page 18 (c) Three phase : 200V 8~20HP ; 400V 8~25HP ; Screw M6 Screw M6...
  • Page 19 Disassembly and assembly steps, As follows:  IP20 / NEMA 1 (a)Single/Three phase: 200V 0.5~1HP; Single phase: 200V 0.5~1HP; Three phase: 200V 2HP; 400V 1~2HP; Frame1 Step1: Loosen the screw Step2: Remove the terminal cover Step3: Wire&Re-install the cover Step4: Tighten the screws...
  • Page 20 Frame 1(NEMA1) Step1: Loosen the screw Step2: Remove the terminal cover Step3: Wire&Re-install the cover Step4: Tighten the screws 3-10...
  • Page 21 (b)Single/Three phase: 200V 2~3HP; Single phase: 200V 2~3HP; Three phase: 200V 5HP; 400V 3~5HP; Frame 2 Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-11...
  • Page 22 Frame 2(NEMA1) Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wire&Re-install the cover Step4: Tighten the screws 3-12...
  • Page 23 (c)Three phase: 200V 7.5~10HP; 400V 7.5~15HP; Frame 3 Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-13...
  • Page 24 Frame 3(NEMA1) Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-14...
  • Page 25 (d)Three phase: 200V 15~20HP; 400V 20~25HP; Frame 4 Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-15...
  • Page 26 Frame 4(NEMA1) Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-16...
  • Page 27 (e) Three phase: 400V 20~25HP; Frame 4(With Filter) Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-17...
  • Page 28 (f) Three phase: 400V 20~25HP; Frame 4(with filter)(E510-420-H3FPT/ E510-425-H3FPT) Step1: Loosen the screws Step2: Remove the terminal cover Step3: Wirie&Re-install the cover Step4: Tighten the screws 3-18...
  • Page 29  IP66/NEMA 4X Step 1: Loosen the screws, lift and rest the cover next to the machine Steps 2: Remove the rubber plugs and use the waterproof cable glands provided to connect cables. 3-19...
  • Page 30 Step 3: Connect power & motor cables through the cable glands to the correct terminals. Connect the control cable through the top gland and secure by the cable clamp. Step 4: Ensure that the cable glands are tightened and the cover waterproof gasket is in place. Then place the cover and tighten the screws.

  • Page 31: Installation Space

    3.2.2 Installation space Provide sufficient air circulation space for cooling as shown in examples below. Install the Inverter on surfaces that provide good heat dissipation, Single unit Installation Install the inverter verticality to obtain effective cooling OPERATOR PANEL Hz/RPM READ RESET ENTER Q S T...

  • Page 32: De-Rating Curves

    3.2.3 De-rating curves Curves below show the applicable output current de-rate due to setting of carrier frequency and the ambient operating temperatures of 40 and 50 degrees C . Frame1/2/3/4 (Single phase: 200V: 0.5~3HP; Single /Three phase: 200V: 0.5~3HP; Three phase: 200V: 2~20HP 400V: 1~25HP) Rating Current(In) 100% Carrier Frequency(KHz)

  • Page 33: Wiring Guidelines

    3.3 Wiring Guidelines 3.3.1 Power Cables Supply power cable must be connected to TM1 terminal block, terminals L1(L), L2, L3(N). L1(L) and L3(N) for single phase 230V supply. Motor cable must be connected to TM1 terminals. T1, T2, T3. Warning:- Connection of supply line cable to terminals T1,T2, T3 will result in serious damage to the drive components.

  • Page 34: Wiring And Emc Guidelines

    3.3.3 Wiring and EMC guidelines For effective interference suppression, do not route power and control cables in the same conduit or trunking. To prevent radiated noise, motor cable should be put in a metal Conduit. Alternatively an armored or shielded type motor cable should be used.

  • Page 35: Failure Liability

    3.3.4 Failure liability  Teco bears no responsibility for any failures or damaged caused to the inverter if the recommendations in this instruction manual have not been followed specifically points listed below,  If a correctly rated Fuse or Circuit breaker has not been installed between the power source and the inverter.

  • Page 36: Considerations For Peripheral Equipment

    3.3.5 Considerations for peripheral equipment Ensure that the supply voltage is correct. A molded-case circuit breaker or fused disconnect Power must be installed between the AC source and the inverter Use a molded-case circuit breaker that conforms to the rated voltage and current of the inverter. Do not use the circuit breaker as the run/stop Circuit switch for the inverter.

  • Page 37: Ground Connection

    3.3.6 Ground connection Inverter ground terminal must be connected to installation ground correctly and according to the required local wiring regulations.  Ground cable size must be according to the required local wiring regulations. Ground connection should be as short as possible. ...

  • Page 38: Inverter Exterior

    3.3.7 Inverter exterior 3.3.7.1 IP20/NEMA 1 exterior (a) Single/Three phase: 200V 0.5~1HP; Single phase: 200V 0.5~1HP; Three phase: 200V 2HP; 400V 1~2HP; E510-Frame 1 E510-Frame 1(NEMA1) 3-28...
  • Page 39 (b) Single/Three phase: 200V 2~3HP; Single phase: 200V 2~3HP; Three phase: 200V 5HP; 400V 3~5HP; E510-Frame2 E510-Frame2(NEMA1) 3-29...
  • Page 40 (c) Three phase: 200V 7.5~10HP; 400V 7.5~15HP; E510-Frame 3 E510-Frame 3(NEMA1) 3-30...
  • Page 41 (d) Three phase: 200V 15~20HP; 400V 20~25HP; E510-Frame 4 E510-Frame 4(NEMA1) 3-31...
  • Page 42 (e) Three phase: 400V 20~25HP; E510-Frame 4 (With Filter) (f) Three phase: 400V 20~25HP; Frame 4(with filter)(E510-420-H3FPT/ E510-425-H3FPT) Fan cover Installation Installation holes Operator Panel holes Operator Panel Heat sink Heat sink Over cover Over cover Name plate Name plate Warning label Warning label label...
  • Page 43 3.3.7.2 IP66/NEMA 4X exterior (a) Single/Three phase : 200V 0.5~1HP ; Single phase : 200V 0.5~1HP ; Three phase : 200V 2HP ; 400V 1~2HP E510-Frame 1(IP66/NEMA 4X With/Without VR and power switches depending on the model) Mounting hole Heat sink 5-digit Display Front cover Operator panel...
  • Page 44 (b) Single/Three phase : 200V 2~3HP ; Single phase : 200V 2~3HP;Three phase : 200V5HP ; 400V 3~5HP E510-Frame 2 (IP66/NEMA 4X With/Without VR and switches depending on the model) Heat sink Mounting hole 5-digit Display Bottom cover Operator panel Model label Power switch Front cover...
  • Page 45 Interior Layout E510-Frame 1 E510-Frame 2 Operator panel RS485 400V 3.7kW 200V 0.75kW RS485 Ground termina E510-Frame 3 E510-Frame 4 Operator panel RS485 RS485 400V 5.5kW 400V 15kW Ground terminal 3-35...
  • Page 46 Warning label 3-36...

  • Page 47: Specifications

    3.4 Specifications 3.4.1 Product Specifications 200V Class:Single phase Model:E510-□□□- H1F(N4)(S) Horse power (HP) 0 .5 Suitable motor capacity (KW) 0 .4 0 .75 1 .5 2 .2 Rated output current (A) 3 . 1 4 . 5 7 . 5 1 0 .5 Rated capacity (KVA) 1 .2...
  • Page 48 400VClass:Three phase Model:E510-□□□- H3(F)(N4)(S) Horse power (HP) Suitable motor capacity (KW) 0 .75 1 .5 2 .2 3 .7 Rated output current (A) 2 . 3 3 . 8 5 . 2 8 . 8 Rated capacity (KVA) 1 . 7 2 .

  • Page 49: General Specifications

    3.4.2 General Specifications Item E510 Control Mode V/F Control, Vector Control Output Frequency 0.01~599.00Hz Starting Torque 150%/1Hz(Vector) Speed Control Range 1:50 Digital input: 0.01Hz Setting resolution Analog input:0.06Hz/60Hz Keypad:Set directly with▲▼ keys or the VR on the Frequency keypad External Input Terminlas: Setting AI1(0/2~10V), AI2(0/4~20mA)input Multifunction input up/down function(Group3)
  • Page 50 All frames include brake transistor Standard built-in RS485 communication (Modbus), One to Communication control one or One to many control. -10~50℃ (Note1) Operating temperature -20~60℃ Storage temperature 95% RH or less (no condensation) Humidity (Compliance with IEC 60068 - 2-78) Environment 20Hz or less 1G(9.8m/s²)20~50Hz 0.6G(5.88m/s²) Shock...

  • Page 51: Standard Wiring

    3.5 Standard wiring 3.5.1 Single phase Braking resistor (Option) Main Fuse Switch L1( L) Induction Inverter Power AC Power Motor output input source L3(N) Ground 1:Data+ 2:Data- CON2 3:Data+ 4:RXD0 5:TXD0 RS485 6:Data- (Run/Stop) 7:5V Pin 1 to Pin 8 REV (Run/Stop) 8:GND Speed Control...

  • Page 52: Single/ Three Phase

    3.5.2 Single /Three phase Model: 200V: E510-2P5-H(N4R)/ E510-201-H(N4R)/ E510-202-H(N4R)/ E510-203-H(N4R) 3-42...

  • Page 53: Three Phase

    3.5.3 Three phase Braking resistor (Option) Main Fuse Switch Induction Power Inverter AC Power Motor input output source Ground 1:Data+ 2:Data- CON2 3:Data+ 4:RXD0 RS485 5:TXD0 (Run/Stop) 6:Data- Pin 1 to Pin 8 7:5V REV (Run/Stop) 8:GND Speed Control Relay 250 VAC/1A Output (30VDC/1A)

  • Page 54: Terminal Description

    3.6 Terminal Description 3.6.1 Description of main circuit terminals Terminal symbols TM1 Function Description L1(L) Main power input: Single phase: L1(L)/L3(N) Single/Three phase:L1(L)/L2/L3(N) Three phase:L1/L2/L3 L3(N) Inverter output, connect to U/V/W terminals of motor Braking resistor connection terminal: Used in applications when it is required to stop a high inertia load rapidly.
  • Page 55 Frame2 Single phase:200V 2~3HP; L1(L) L3(N) Single/Three phase:200V 2~3HP; Three phase:200V 5HP; 400V 3~5HP; L1(L) L3(N) Frame3 & Frame4 Three phase:200V 7.5~20HP; 400V 7.5~25HP 3-45...

  • Page 56: Control Circuit Terminal Description

    3.6.2 Control circuit terminal description Type Terminal Terminal function Signal level Forward─Stop (Preset), Multi function input terminal Reverse─Stop (Preset), Multi function input terminal 24 VDC, 8 mA, Optical Digital Preset Speed0(5-02),Multi function input terminal coupling input isolation(Max,voltage30 Vdc, Preset Speed1(5-03), Multi function input terminal signal Input impedance 3.3kΩ) Preset Speed2(5-05), Multi function input terminal...
  • Page 57 JUMPER function description Jumper Symbol F unc tion Signa l Re fer ence Note NPN Input J P1 NPN/PNP selectable Factory defult setting PNP Input 0~20mA / 4~20mA Set parameters External signal type 00-05/00-06 Analog signal JP2/JP3 selection to 2 or 3 (external analog input) to become 0~10VDC / 2~10VDC effective...

  • Page 58: Outline Dimensions

    3.7 Outline Dimensions mm(inch) Tolerance Table 1 ~ 10  0.1 10 ~ 50  0.2 50 ~ 100  0.3 100 ~ 200  0.5 200 ~ 400  0.8 (0.04~0.40  0.004) (0.40~1.97  0.01) (1.97~4  0.01) (4~7.87 ...
  • Page 59 Frame2 (IP20) Single/Three phase: 200V 2~3HP ; Single phase: 200V 2~3HP Three phase: 200V 5HP; 400V 3~5HP 2-Q1 2-Q2 Unit: mm(inch) Dimensions Model (Kg) E510-202-H E510-203-H E510-202-H1F E510-203-H1F 128.7 187.6 177.6 197.5 133.8 141.8 48.2 E510-205-H3 (5.07) (4.65) (4.65) (7.39) (6.99) (7.78) (5.91)
  • Page 60 Frame3 (IP20) Three phase: 200V 7.5~10HP; 400V 7.5~15HP 2-Q1 2-Q2 Unit: mm(inch) Dimensions Model (Kg) E510-208-H3 E510-210-H3 E510-408-H3 186.9 260.9 249.8 197.2 76.7 E510-410-H3 (7.36) (6.89) (6.93) (10.27) (9.83) (10.75) (7.76) (7.24) (7.44) (3.02) (0.18) (0.18) E510-415-H3 E510-408-H3F E510-410-H3F E510-415-H3F 3-50...
  • Page 61 Frame4 (IP20) Three phase: 200V 15~20HP; 400V 20~25HP 2-Q1 2-Q2 Unit: mm(inch) Dimensions Model (Kg) E510-215-H3 10.1 E510-220-H3 10.4 224.6 321.6 303.5 330.9 200.7 187.5 192.5 (8.84) (8.15) (8.15) (12.66) (11.95) (13.03) (7.9) (7.38) (7.58) (3.7) (0.24) (0.24) E510-420-H3 10.5 E510-425-H3 10.5 3-51...
  • Page 62 Frame4 (IP20) (With Filter) Three phase: 400V 20~25HP Unit: mm(inch) Dimensions Model (Kg) E510-420-H3F 13.7 224.6 303.5 330.9 200.7 187.5 192.5 192.5 (8.84) (8.15) (8.15) (17.17) (11.95) (13.03) (7.9) (7.38) (7.58) (2.52) (7.58) (0.24) (0.24) E510-425-H3F 13.7 3-52...
  • Page 63 Frame4 (IP20) (With Filter) Three phase: 400V 20~25HP Unit: mm(inch) Dimensions Model (Kg) E510-420-H3FPT 13.8 235.6 381.5 249.5 254.5 (9.28) (7.09) (15.75) (15.02) (10.35) (9.82) (10.02) (2.44) (9.33) (0.28) E510-425-H3FPT 13.8 3-53...
  • Page 64 Frame1 (NEMA1) Single/Three phase: 200V 0.5~1HP; Single: 200V 0.5~1HP Three phase: 200V 2HP; 400V 1~2HP Unit: mm(inch) Dimensions Model (Kg) E510-2P5-H E510-201-H E510-2P5-H1F E510-201-H1F 90.6 80.5 186.2 189.2 137.8 41.2 120.5 4.33 E510-202-H3 (3.57) (3.17) (7.33) (7.45) (5.87) (5.42) (5.55) (1.62) (4.74) (0.17)
  • Page 65 Frame2 (NEMA1) Single/Three phase: 200V 2~3HP; Single: 200V 2~3HP Three phase: 200V 5HP; 400V 3~5HP Unit: mm(inch) Dimensions Model (Kg) E510-202-H E510-203-H E510-202-H1F E510-203-H1F 128.7 210.6 213.6 133.8 141.8 46.1 121.1 E510-205-H3 150(5.91) (5.06) (4.65) (8.29) (8.41) (5.27) (5.58) (1.81) (4.77) (0.18) E510-403-H3...
  • Page 66 Frame3 (NEMA1) Three phase: 200V 7.5~10HP; 400V 7.5~15HP Unit: mm(inch) Dimensions Model (Kg) E510-208-H3 E510-210-H3 E510-408-H3 E510-410-H3 187.5 293.5 76.7 170.6 (7.38) (6.92) (11.47) (11.56) (7.76) (7.24) (7.44) (3.02) (6.72) (0.18) E510-415-H3 E510-408-H3F E510-410-H3F E510-415-H3F 3-56...
  • Page 67 Frame4 (NEMA1) Three phase: 200V 15~20HP; 400V 20~25HP Unit: mm(inch) Dimensions Model (Kg) E510-215-H3 10.5 E510-220-H3 10.5 224.6 350.1 355.1 200.7 187.5 192.5 (8.84) (8.15) (13.78) (13.98) (7.9) (7.38) (7.58) (3.89) (6.85) (0.18) E510-420-H3 10.9 E510-425-H3 3-57...

  • Page 68: Ip66/Nema4X Dimensions

    3.7.2 IP66/NEMA 4X dimensions Frame 1 (IP66/NEMA 4X) Single/Three phase: 200V 0.5~1HP; Single phase : 200V 0.5~1HP; Three phase : 200V 2HP ; 400V 1~2HP Unit: mm(inch) Dimensions Model (Kg) E510-2P5-HN4R (7.87) E510-2P5-H1FN4S (7.87) (7.87) E510-201-HN4R (7.87) E510-201-H1FN4S 150.8 133.3 248.7 230.2 214.2...
  • Page 69 Frame 2 (IP66/NEMA 4X) Single/Three phase : 200V 2~3HP; Single phase : 200V 2~3HP; Three phase : 200V5HP; 400V 3~5HP ; Unit: mm(inch) Model dimensions (kg) 235.2 E510-202-HN4R (9.26) 235.2 235.2 E510-202-H1FN4S (9.26) (9.26) 235.2 E510-203-HN4R (9.26) 235.2 235.2 E510-203-H1FN4S (9.26) (9.26) 337.9...
  • Page 70 Frame 3 (IP66/NEMA 4X) Three phase : 200V 7.5~20HP ; 400V 7.5~25HP Unit: mm(inch) Model Dimensions (kg) E510-208-H3N4 E510-210-H3N4 E510-215-H3N4 E510-220-H3N4 E510-408-H3N4 266.5 263.5 E510-408-H3FN4S (10.49) (10.37) 222.8 466.3 246.6 12.68 E510-410-H3N4 (8.77) (5.51) (18.11) (17.32) (18.36) (9.71) (3.78) (0.28) (0.28) 266.5 263.5...

  • Page 71: Emc Filter Disconnection

    3.8 EMC Filter Disconnection EMC filter may be disconnected: Inverter drives with built-in EMC filter are not suitable for connection to certain type of supply systems, such as listed below; in these cases the RFI filter can be disabled. In all such cases consult your local electrical standards requirements. IT type supply systems (ungrounded) &...

  • Page 72: The Dimension And Installation Of Operator Panel

    3.9 The Dimension and Installation of Operator panel 3.9.1 Description of dimension and installation (IP20/NEMA1) The operator panel has a LED display and can be removed for remote installation. Installation and dimension information are as follows.. Dimension  3-62...
  • Page 73 Surface installation diagram  Use M3 screw to secure the operator panel to the mounting surface. Use M3 screw to secure the operator panel to the mounting surface. Here is the slot to connect the line of RJ45. 3-63...

  • Page 74: Description Of Protective Cover

    3.9.2 Description of Protective Cover For remote installation of the operator panel, to avoid ingress of dust, use the supplied protective cover. Step1: Loosen the four screws of the operator panel. Step 2: Take out the operator panel. Step 3: Mount the self-adhesive protective cover as per diagram below. Push into position to locate.. Here is the bottom of the slot.

  • Page 75: Chapter 4 Software Index

    Chapter 4 Software Index 4.1 Keypad Description 4.1.1 Operator Panel Functions Type Item Function Frequency Display, Parameter, voltage, Current, Main digital displays Temperature, Fault messages. Hz/RPM: ON when the frequency or line speed is displayed. OFF when the parameters are displayed. Digital FWD: ON while the inverter is running forward.

  • Page 76: Digital Display Description

    4.1.2 Digital display Description Alpha numerical display format Digit Letter Letter Symbol ° Digital tube lights flashing instructions Actual output frequency Set frequency Digits are lit Continually Preset digits flashing Selected digit flashing...
  • Page 77 LED display examples Display Description In stop mode shows the set frequency In run mode shows the actual output frequency Selected Parameter Parameter Value Output Voltage Output Current in Amps DC Bus voltage Temperature PID feedback Value Error display ( 0~1000) Analogue Current / Voltage AI1 / AI2 .

  • Page 78: Digital Display Setup

    4.1.3 Digital display set up On power up digital display screens will be as shown below. DSP/ DSP/ 2sec later parameter frequency Power supply User selectable display formats: 12- 00 Display Mode Range High Each of the above 5 digits can be set to any of the selections below from 0 to 8 【0】:Disable display 【1】:output Current 【2】:output Voltage 【3】:DC voltage 【5】:PID feedback...

  • Page 79: Example Of Keypad Operation

    Example 2. Set parameter 12- 00=【12345】 to obtain the display format shown below. DSP/ DSP/ DSP/ Temperature DC voltage < 4 > < 3 > DSP/ PIDfeedback Output Voltage DSP/ < 5 > < 2 > 2sec later Output Current Parameter Display: Power supply DSP/...
  • Page 80 Example2: Modifying the frequency from keypad in run and stop modes. Note: Frequency command setting will be limited to the range set by parameters for lower & upper frequency.

  • Page 81: Operation Control

    4.1.5 Operation Control...

  • Page 82: Programmable Parameter Groups

    4.2 Programmable Parameter Groups Parameter Group No. Description Group 00 Basic Parameters Group 01 V/F Pattern Selections and Setup Group 02 Motor Parameters Group 03 Multi Function Digital Inputs/Outputs Group 04 Analog Signal Inputs/Output Group 05 Preset Frequency Selections Group 06 Auto Run Function(Auto Sequencer) Group 07 Start/Stop Command Setup...
  • Page 83 G ro up 00- Basic parameters Factory Description Range Unit Note Setting 0:V/F Mode 00-00 Control Mode Selection 1:Vector Mode 00-01 Reserved 0:Keypad 1:External Run/Stop Control Main Run Command 00-02 2:Communication Source Selection 3:PLC 0:Keypad Alternative Run Command 1:External Run/Stop Control 00-03 Source Selection 2:Communication...
  • Page 84 G ro up 01- V/F Pattern selection & Setup Factory Description Range Unit Note Setting Volts/Hz Patterns 0~18 01-00 200V:170.0~264.0 01-01 V/F Max voltage 220.0/440.0 400V:323.0~528.0 01-02 Base Frequency 0.20 ~ 599.00 50.00/60.00 01-03 Max Frequency Voltage Ratio 0.0 ~ 100.0 100.0 Mid Frequency 2 0.10 ~ 599.00...
  • Page 85 Group 03- External Digital Inputs and Relay Output Functions Factory Description Range Unit Note Setting 03-00 Multifunction Input Term. S1 0:Forward/Stop Command 03-01 1:Reverse/Stop Command Multifunction Input Term. S2 2:Speed Selection 1 03-02 Multifunction Input Term. S3 3:Speed Selection 2 03-03 Multifunction Input Term.
  • Page 86 Group 03- External Digital Inputs and Relay Output Functions Factory Description Range Unit Note Setting S6 switch type select xxxx0:S6 NO xxxx1:S6 NC 00000 03-10 Output Relay RY1 03-11 0:Run ( Terminals R1A,R1B, R1C ) 1:Fault 2:Output Frequency Reached 3:Output Frequency Reached within Preset Range (3-13±3-14) 4:Output Frequency Detection1(>...
  • Page 87 Group 03- External Digital Inputs and Relay Output Functions Factory Description Range Unit Note Setting Pulse Frequency 0.01~0.20 03-27 03-28 Pulse Frequency Gain 0.01~9.99 1.00 ※ “NO” indicates normally open, “NC” indicates normally closed. 4-13...
  • Page 88 Group 04- Analog signal inputs / Analog output Factory Description Range Unit Note Setting (0): 0~10V (0~20mA) 0~10V (0~20mA) Analog Input Signal Type 04-00 (1): 0~10V (0~20mA) 2~10V (4~20mA) Select (AI1/AI2) (2): 2~10V (4~20mA) 0~10V (0~20mA) (3): 2~10V (4~20mA) 2~10V (4~20mA) 04-01 AI1 Signal Verification Scan Rate 1~200...
  • Page 89 Group 05- Preset Frequency Selections Factory Description Range Unit Note Setting 0: Common Accel/Decel Accel/Decel 1 or 2 apply to all speeds Preset Speed Control 05-00 1: Individual Accel/Decel for each preset speed Mode Selection 0-15 apply to the selected preset speeds (Acc0/Dec0~Acc15/Dec15) Preset Speed 0 05-01...
  • Page 90 Group 05- Preset Frequency Selections Factory Description Range Unit Note Setting Preset 05-40 10.0 Speed11-Dectime Preset 05-41 10.0 Speed12-Acctime Preset 05-42 10.0 Speed12-Dectime Preset 05-43 10.0 Speed13-Acctime Preset 05-44 10.0 Speed13-Dectime Preset 05-45 10.0 Speed14-Acctime Preset 05-46 10.0 Speed14-Dectime Preset 05-47 10.0 Speed15-Acctime...
  • Page 91 Group 06- Auto Run Function (Auto Sequencer) Factory Description Range Unit Note Setting Auto _ Run Mode 06-06 0.00 Frequency Command 6 Auto _ Run Mode 06-07 0.00 Frequency Command 7 Auto _ Run Mode 06-08 0.00 Frequency Command 8 Auto _ Run Mode 06-09 0.00...
  • Page 92 Group 06- Auto Run Function (Auto Sequencer) Factory Description Range Unit Note Setting Auto_ Run Mode 06-27 Running Time Setting Auto_ Run Mode 06-28 Running Time Setting Auto_ Run Mode 06-29 Running Time Setting Auto_ Run Mode 06-30 Running Time Setting Auto_ Run Mode 06-31 Running Time Setting...
  • Page 93 Group 07- Start/Stop Command Setup Factory Description Range Unit Note Setting 0: Momentary Power Loss and Restart Disable Momentary Power Loss 07-00 and Restart 1: Momentary Power Loss and Restart Enable Auto Restart Delay 07-01 0.0~800.0 Time Number of Auto Restart 07-02 0~10 Attempts...
  • Page 94 Group 08- Drive & Motor Protection Functions Factory Description Range Unit Note Setting xxxx0: Enable Trip Prevention During Acceleration xxxx1: Disable Trip Prevention During Acceleration xxx0x: Enable Trip Prevention During Deceleration xxx1x: Disable Trip Prevention During Deceleration Trip Prevention 01000 08-00 xx0xx: Enable Trip Prevention in Run Selection...
  • Page 95 Group 08- Drive & Motor Protection Functions Factory Description Range Unit Note Setting 0: Over Torque Detection Disabled Over Torque Detection Over torque detection after set frequency is 08-13 Control reached Over torque detection after run command 0: Stop Output After Over Torque Detection (Free Run to Stop) Over torque protection 08-14...
  • Page 96 Group 10- PID Function Setup Factory Description Range Unit Note Setting 0: Potentiometer on Keypad 1: Analog Signal Input. (AI1) PID Target Value Selection 2: Analog Signal Input. (AI2) 10-00 (When 00-05\00-06=6 This 3: Frequency Set by Communication Function is Enabled) 4: Keypad Frequency Parameter 10-02 0: Potentiometer on Keypad...
  • Page 97 Group 11- Performance Control Functions Factory Description Range unit Note Setting 0: Reverse Command is Enabled 11-00 Reverse Operation Control 1: Reverse Command is Disabled 11-01 Carrier Frequency (kHz) 1~16 0: Mode0, 3Phase PWM modulation 11-02 Carrier Mode Selection 1: Mode1, 2Phase PWM modulation 2: Mode2, 2Phase Soft PWM Modulation Carrier Frequency 0:Disable...
  • Page 98 Group 12 Digital Display & Monitor Functions Factory Description Range Unit Note Setting 00000~88888 Each digit can be set from 0 to 8 as listed below. 0: Default Display (Frequency and Parameters) 1:Output Current 2:Output Voltage Extended Display Mode 00000 12-00 3:DC Voltage 4:Temperature...
  • Page 99 Group 12 Digital Display & Monitor Functions Factory Description Range Unit Note Setting Detect Main Circuit Reserved 12-07 Capacitors Display of Inrush Current 12-08 0~100 Suppression Circuit Display of Control Circuit 12-09 0~100 Capacitors 12-10 Reserved Output Current when ---- 12-11 Fault Appeared Output Voltage when...
  • Page 100 Group 14 PLC Setting function Factory Description Range unit Note Setting Setting Value1 of T1 14-00 0~9999 Setting Value1 of T1 (mode 7) 14-01 0~9999 14-02 Setting Value1 of T2 0~9999 14-03 Setting Value1 of T2 (mode 7) 0~9999 14-04 Setting Value1 of T3 0~9999 14-05...
  • Page 101 Group 15 PLC Monitoring function Factory Description Range unit Note Setting Current Value of T1 15-00 0~9999 Current Value of T1(mode 7) 15-01 0~9999 15-02 Current Value of T2 0~9999 15-03 Current Value of T2(mode 7) 0~9999 15-04 Current Value of T3 0~9999 15-05 Current Value of T3(mode 7)

  • Page 102: Parameter Function Description

    4.3 Parameter Function Description 00 - Basic Parameters Group 00- 00 Control Mode Selection 【0】:V/F Mode Range 【1】:Vector Mode To select the appropriate vector or V/F control mode according to the load characteristics.  If V/F mode is selected, please set parameters, group1 to comply with the load features. ...
  • Page 103 can not be the same. Otherwise the panel will display Err2. 00- 07 Main and Alternative Frequency Command Modes 【0】: Main or Alternative Frequency. Range 【1】: Main Frequency + Alternative Frequency  When 00 - 07 =【0】, the frequency source is set by the Main frequency parameter 00-05 ( Default) or by the Alternative frequency parameter 00-06.
  • Page 104 00-14 Acceleration Time 1 【0.1~3600.0】 s Range 00-15 Deceleration Time 1 【0.1~3600.0】 s Range 00-16 Acceleration Time 2 【0.1~3600.0】 s Range 00-17 Deceleration Time 2 【0.1~3600.0】 s Range  Preset Acceleration and Deceleration times set by above parameters are the time taken for the output frequency to ramp up or ramp down between the Upper and the lower frequency limits.
  • Page 105 01- V/F Pattern selections & setup 01- 00 Volts/Hz Patterns (V/F) 【0~18】 Range  Set 01-00 to one of the following preset V/f selections 【0~17】according to the required application.  Parameters 01-02~01-09 are not applicable. Six fixed V/f patterns are shown below.【1~8】for 50 Hz systems and 【9~17】for 60 Hz ...
  • Page 106 (V) 100% is the maximum output voltage. B, C point preset % settings will be as table below: 01- 00 B(Xb) C(Xc) 0 / 9 7.5% 4.5% 1 / 10 10.0% 7.0% 11.0% 8.5% 12.0% 9.5% 17.5% 4.0% 25.0% 5.0% 11.0% 8.0% 12.0%...
  • Page 107 (V)% 01-03 (Vmax) 01-05 (Vmid2) 01-07 (Vmid1) 01-09 (Vmin) 01-08 01-06 01-04 01-02 599.00 01-10 Volts/Hz Curve Modification (Torque Boost) 【0 ~ 10.0】% Range  Inverter output V / F curve settings for points B, C can be adjusted by parameter 01-10 to improve the output torque.
  • Page 108 02- Motor parameters 02- 00 Motor No Load Current 【0~【 ( Patameter 02-01)-0.1】】 Range 02- 01 Motor Rated Current 【0.2~100】 Range 02- 02 Motor Rated Slip Compensation 【0.0 ~ 200.0】(%) Range 02- 03 Motor Rated Speed 【0~39000】 Range When the load causes the actual motor speed to be reduced below the speed set by inverter output frequency (Slip) , parameter 02-02 Slip compensation can be used to correct the speed.
  • Page 109  In vector mode, selected by parameter 00-00=【1】, set the motor name plate data in parameters 02-01, 02-03~02-06 then activate the out auto tune function by setting parameter 02-14 = 1. Auto tune function will set the inverter to run with the specific motor connected to obtain the best ...
  • Page 110 (FWD/STOP) (REV/STOP) E510 ※ Note: If both forward and reverse commands are ON, it will be treated as a STOP. 1B) 2-wire method. Mode 2. Example: RUN/STOP and REV/FWD from two inputs (S1&S2) Set 00- 04=【1】; S1:03- 00=【0】(RUN/STOP); S2:03- 01=【1】(REV/FWD); (RUN /STOP) (REV/FWD) E510...
  • Page 111 S1(RUN) S2(STOP) S3(FWD/REV) E510 2. 03- 00~03- 05 = Sx =【5, 4, 3, 2】Preset speed selections Any digital input from S1 to S6 can be used to select between 16 different preset speeds (from preset speed 0 to preset speed 15). Four Speed selection bits are available and can be assigned to any digital input.
  • Page 112 3. 03- 00~03- 05=【6, 7】Forward/ Reverse JOG When an input terminal is set to function【6】and is turned on, inverter will work in jog forward mode. When an input terminal is set to function【7】and is turned on, inverter will work in jog reverse mode. Note: If jog forward and jog reverse function is enabled at the same time, inverter will enter stop mode.
  • Page 113 50Hz(upper frequency) 25Hz( target frequency) Actual 5S(accelerating accelerating time 1) Diagram b time 1 Diagram b: The actual accelerating time : target frequency 25Hz     actual accelerating time accelerating time 1= upper frequency 50Hz 6. 03- 00~03- 05=【11】Disable Acc/Dec function When an input terminal is set to function【11】and is turned on, acceleration and deceleration function will be disabled and the frequency at the time is maintained.
  • Page 114 11. 03- 00~03- 05=【16】Disable PID Function When an input terminal is set to function【16】and is turned on, PID functions is disabled, if it is turned off , PID function is enabled again. 12. 03- 00~03- 05=【17】Reset When a failure that can be manually reset occurs ,turn on a terminal with function 【17】, the failure will be reset.
  • Page 115  The correct use of this function is the responsibility of the installer of the fire safety system. Teco will bare no responsibility for direct or indirect damages or loss incurred as a result of use of this function. ...
  • Page 116  The fire Mode function is activated by using one of the external multifunction inputs S1 to S6 and setting the relevant parameter for the selected input by 03-00~03-05 =【28】  Fire mode can also be enabled by setting the functions of S1 to S6 by communication method. ...
  • Page 117 03- 07 Up/Down Keep Frequency Status after Stop Command 【0】: After a stop command in Up/Down mode, the preset frequency is held as the inverter stops,and the UP/Down function is disabled. Range 【1】After a stop command in Up/Down mod, the preset frequency is reset to 0 Hz as the inverter stops.
  • Page 118 【15】:PID Feedback Signal Loss 【16】:Single pre-set count (3-22) 【17】:Dual pre-set count (3-22~23) 【18】:PLC status indicator (00-02) 【19】:PLC control 【20】:Zero Speed 03-13 Preset Frequency Reached Level 【0.00~599.00】 Hz Range 03-14 Frequency Reached Detection Range (±) 【0.00~30.00】 Hz Range Output relay RY function descriptions: 1) 03-11/03-12 =【0】.
  • Page 119 5) 03-11=【4】. RY will be on as soon as the Output frequency > Preset frequency reached level (03-13) 6) 03-11=【5】. RY will be on as soon as the Output frequency < Preset frequency reached level (03-13) 7) 03-11/03-12=【20】Zero Speed Output Frequency => Minimum Frequency (01-08,Fmin) Output Frequency <...
  • Page 120 03-15 Preset output current reached 【0.1~15.0】 A Range 03-16 Preset output Current detection delay Time 【0.1~10.0】 Sec Range  03-11=【13】RY1 will be on as soon as the output current value > preset current setting (03-15). 03-15: Setting range (0.1~15.0 Amps ) as required according to the rated motor current. ...
  • Page 121 03-17 03-18 STOP command 03-11=14 03- 19 Relay Output Status Type 【0】:A (Normally open) Range 【1】:B (Normally close)  When 03-19=0,  When the set conditions of 03-11,03-12 are met , relay contact is closed, otherwise it will be open.. ...
  • Page 122 The definition of bits in 03-20: 03- 20= 0 0: external control according to 03-00 to 03-05. S6 S5 S3 S2 1: internal ON/OFF status control according to 03-21. The definition of bits in 03-21: 03- 21= 0 0: internal multi-function input terminal is OFF. S6 S5 S4 S3 S2 S1 1: internal multi-function input terminal is ON.
  • Page 123 03- 22 Pre-set count 1 【0~9999】 Range 03- 23 Pre-set count 2 【0~9999】 Range  The internal counter function can be used to count external pulses and activate RY1 & RY2 output relays to indicate the pre-set counts reached set in parameters 03-22 & 03-23. ...
  • Page 124 03- 24 Output Under Current Detection 【0】:disable Range 【1】:enable 03- 25 Output Under Current Detection Level 【5%~100%】 Range 03- 26 Output under Current Detection Delay Time 【0.0~50.0s】 Range  When 03-24 = 1, if output current is less than under current detection level, for a preset time 03-26 then ud-C fault will be displayed.
  • Page 125 04- External Analog Signal Input / Output Functions 04- 00 Analog Voltage & Current Input Selections AI1/AI2 Range 【0】: 0~10V (0~20mA) 0~10V (0~20mA) 【1】: 0~10V (0~20mA) 2~10V (4~20mA) 【2】: 2~10V (4~20mA) 0~10V (0~20mA) 【3】: 2~10V (4~20mA) 2~10V (4~20mA)  Use JP2/JP3 to set analog signal type to voltage or current input. Parameter 04-00 must be set according to JP2/JP3 setting.
  • Page 126 AI1.Analog Voltage input scaling examples by adjusting Gain, Bias & Slope parameters (04-02~04-05) (1) Positive Bias type (04-04= 0) and effects of modifying Bias amount by parameter 04-03 and Slope type with parameter 04-05 are shown in Fig 1&2. Figure1: Figure2: 04- 02 04- 03...
  • Page 127 (3)Offset bias set to 0% (04-03) and effect of modifying Analog Gain ( 04-02), Bias type ( 04-04) and slope type( 04-05) are shown in shown Fig 5&6. Figure5: Figure6: 04- 02 04- 03 04- 04 04- 05 04- 02 04- 03 04- 04 04- 05...
  • Page 128 04-11 Analog Output (AO) Function Selection. 【0】:Output Frequency Range 【1】:Frequency Command 【2】:Output Voltage 【3】:DC Bus Voltage 【4】:Output Current Example: Set 04-11 required according to the table below. 04-11 Xmax upper frequency 【0】 Output frequency limit upper frequency 【1】 Frequency Setting limit Motor Rated 【2】...
  • Page 129 0-100Hz 0-200Hz 0-50Hz AGND AGND AGND Ratio C Ratio B Ratio A Master Parameter Preset: 00-05=2 00-05=2 00-05=2 00-12=100 00-12=200 00-12=50 04-16=1 04-16=1 04-16=1 Frequency 200Hz upper limit ( Hz) 100Hz C 50Hz Analog Input Signal Master 4-55...
  • Page 130 05- Preset Frequency Selections 05- 00 Preset Speed Control mode Selection 【0】: Common Accel/Decel Range 【1】: Individual Accel/Decel for each preset speed 0-15 05- 01 Preset Speed 0 (Keypad Freq) 05- 02 Preset Speed 1 05- 03 Preset Speed 2 05- 04 Preset Speed 3 05- 05...
  • Page 131  When 05- 00 =【0】, Accel /Decel 1 or 2 set by parameters 00-14/00-15 or 00-16/00-17 apply to all speeds.  When 05- 00 =【1】, When 05- 00 =【1】Individual Accel/Decel apply to each preset speed 0-15. Parameters 05-17 to 05-48. ...
  • Page 132             (05 17) (05 01) (05 18) (05 01) (05 19) (05 02) (05 20) (05 02) ,b = ,d = ……     01 02 01 02 01 02 01 02 Unit (sec)
  • Page 133 06- Auto Run(Auto Sequencer) Function 06- 00 Auto Run( sequencer) mode selection 【0】:Disabled 【1】:Single cycle (Continues to run from the unfinished step if restarted). Range 【2】:Periodic cycle. (Continues to run from the unfinished step if restarted). 【3】:Single cycle, then holds the speed of final step to run. (Continues to run from the unfinished step if restarted).
  • Page 134 06- 38 Auto_ Run Mode Running Direction6 06- 39 Auto_ Run Mode Running Direction7 06- 40 Auto_ Run Mode Running Direction8 06- 41 Auto_ Run Mode Running Direction9 06- 42 Auto_ Run Mode Running Direction10 06- 43 Auto_ Run Mode Running Direction11 06- 44 Auto_ Run Mode Running Direction12 06- 45...
  • Page 135 Example 2: Periodic Cycle Run. Mode: 06- 00=【2】or【5】 The inverter will repeat the same cycle periodically. All other Parameters are set same as Example 1. shown above 06-02 06-02 06-01 06-01 05-01 05-01 06-16 06-17 06-18 06-03 06-16 06-18 06-17 06-03 06-19 06-19...
  • Page 136 06- 00 1~3 4~6 Command Command stop stop Output Output Frequency begin a new cycle Frequency Continue running from unfinished step time time  ACC/DEC time in Auto run mode will be according to the setting of 00-14/00-15 or 00-16/00-17. ...
  • Page 137 07- 03 Reset Mode Setting 【0】:Enable Reset Only when Run Command is Off Range 【1】:Enable Reset when Run Command is On or Off  07-03=0 Once the inverter is detected a fault, please turn Run switch Off and then On again to perform reset, otherwise restarting will not be possible.
  • Page 138  07-11=0:When auto-restarting the inverter will detect the rotating speed of the motor. The Motor will be controlled to accelerate from the present speed to the target speed.  07-11=1:The inverter restart from 0 speed to set frequency in acceleration time when auto-restart. 07-12 Power loss ride trough time 【0.0 ~ 2.0】...
  • Page 139 3. When KEB function is enabled, the inverter decelerate to zero by 07-14, and the inverter stop 4. IF the power on signal enabled during the KEB function, the inverter accelerate to original frequency. 07-15 DC injection Brake Mode Range 【...
  • Page 140 08- 06 Operation After Overload Protection is Activated 【0】:Coast-to-Stop After Overload Protection is Activated Range 【1】:Drive Will Not Trip when Overload Protection is Activated (OL1)  08- 06 = 【0】: On overload condition the inverter coast to stop as the thermal relay detects the overload and the display will flash OL1.To reset Press the ‘Reset’...
  • Page 141  Motor overload protection level is according to the setting of 08-11 and 08-12, as follows: OL1 level 08-11=0 08-11=0 08-11=1 08-11=1 frequency 08-12=0 08-12=1 08-12=0 08-12=1 (base on rated F) F<=33.3% 33.3%<F<90% 103% 113% F>=90% 103% 113%  When 08-12= 【 0】 : Overload protection for motors used in general purpose applications, as long as the load demand is less than 103% of the rated current, the motor continues to run.
  • Page 142 08- 18 Ground Fault Detection 【0】: Disable Range 【1】: Enable ON dectection of Ground fault if 08-18 = 1, fault message (GF) will be displayed.. * Note: this function is only available for inverter Frames 3, 4. 09- Communication function setup 09- 00 Assigned Communication Station Number 【1 ~ 32】...
  • Page 143 Master Slave Slave Master (PLC) (INV-E510) (INV-E510) (PLC) PLC Command Inverter response Information information 3.5 Characters 09-09 set value 10-PID function Setup PID block diagram 10- 00 PID target value selection 【0】:Potentiometer on Keypad 【1】:External AI1 Analog Signal Input 【2】:External AI2 Analog Signal Input Range 【3】:Target Frequency set by Communication method.
  • Page 144  10- 03 =【2】 Feed back (detected value) is derivative controlled in unit time set in parameter 10- 07.  10- 03 =【3】 Deviation (target value –detected value) is derivative controlled in unit time set in parameter 10- 07. If the deviation is positive, the output frequency decreases, vice versa.
  • Page 145 10-15 Integral Value Resets to Zero when Feedback Signal Equals the Target Value 【0】: Disable 【1】: After 1 Sec Range 【30】: After 30 Sec ( Range:- 1 ~ 30Sec)  10-15=0: As PID feedback value reaches the set point, the integrator will not be reset to 0. ...
  • Page 146 11 Performance Control Functions 11- 00 Prevention of Reverse operation 【0】:Reverse command is enabled Range 【1】:Reverse command is disabled  11-00=1, the reverse command is disabled. 11- 01 Carrier Frequency Range 【1~16】kHz  While IGBT-driven inverter can provide low-noise working environment, the high frequency devices have carrier frequency waveform cutting, it may interfere with external electronic device, even caused vibration when connected with motor, and then need to adjust the carrier frequency.
  • Page 147 11- 04 S-Curve Acc 1 11- 05 S-Curve Acc 2 11- 06 S-Curve Dec 3 11- 07 S-Curve Dec 4 【0.0 ~ 4.0】Sec Range  Use S Curve parameters where a smooth acceleration or deceleration action is required, this will prevent possible damage to driven machines by sudden acceleration/deceleration.
  • Page 148 OV (over voltage), to avoid over voltage due to regeneration the output frequency will be increased.. Regeneration prevention function can be set according to the selections above. Example: Regeneration prevention during acceleration. Set value of 11-14 Vpn(DCV) Output frequency (Hz) Regeneration prevention at work Example: Regeneration prevention during constant speed.
  • Page 149 11- 14 Regeneration Prevention Voltage Level Range 【200V:300.0~400.0, 400V: 600.0~800.0】V  Regeneration prevention voltage level: if the DC bus voltage level is set too low, then over-voltage protection will not be reached, but the actual deceleration time will be extended. 11- 15 Regeneration Prevention Frequency Limit 【...
  • Page 150 appropriate. Motor synchronous speed = 120 x Rated frequency/Number of poles. 12- 04 Custom Units (Line Speed) Display Mode 【0】:Drive Output Frequency is Displayed 【1】:Line Speed is Displayed in Integer (xxxxx) Range 【2】:Line Speed is Displayed with One Decimal Place (xxxx.x) 【3】:Line Speed is Displayed with Two Decimal Places (xxx.xx) 【4】:Line Speed is Displayed with Three Decimal Places (xx.xxx) ...
  • Page 151 Range ---- 12- 15 Frequency command when fault appeared Range ----  In addition to the main circuit capacitors above, the theoretical value of life diagnosis are only for reference. 13 Inspection & Maintenance Functions 13- 00 Drive Horsepower Code Range ---- Inverter Model:...
  • Page 152 13- 07 Parameter Lock Key Code Range 【00000~65535】  When a parameter lock key number is entered in parameter 13-07. For any parameter modification the key number has to be entered. See following Parameter lock key setting example:-  Setting Parameter lock key number example: Step1: ▲...
  • Page 153 1112: Reset PLC.  When a Parameter lock key number has been entered in parameter 13-07. This key number must be entered first before parameter 13-08 capable to be used. 14 PLC Setting function 14- 00 Setting value1 of T1 14- 01 Setting value1 of T1 (mode 7) 14- 02...
  • Page 154 14- 46 Setting value2 of MD4 14- 47 Setting value3 of MD4 Range 【0~65535】  MD1~MD4 is 4 Multiplication modules of built-in PLC. 15 PLC Monitoring function 15- 00 Current value of T1 15- 01 Current value of T1(mode 7) 15- 02 Current value of T2 15- 03...

  • Page 155: Specification Description On Built-In Plc Function

    4.4 Specification Description on Built-in PLC Function PLC programs can be developed on PC (Windows base software) or PDA (WinCE base software) for download to E510. E510 Inputs and outputs can be set for PLC functionality. Speed functions can be set using the built-in PLC functionality.

  • Page 156: Function Of Basic Instructions

    4.4.2 Function of Basic Instructions ◎ Function D (d) Command Sample 1: I1-D ──[ Q1 One complete scan period Sample 2: i1-d──[Q1 I1 is the reverse phase of i1 One complete scan period ◎ ◎ NORMAL ( - [ ] Output I1───[Q1 ◎...

  • Page 157: Application Instructions

    4.4.3 Application Instructions 1. Counter Symbol Description Counting Mode (1-4)  Use (I1 ~ f8) to set counting up or counting down  counting up (0, 1, 2, 3, 4….) OFF: counting down ( ….3, 2, 1, 0) ON : Use (I1 ~ F8) to RESET the counting value the counter is initialized to zero...
  • Page 158 Sample: Input under the Ladder Program Mode [C3] The ON/OFF of C3 input count Pulse is controlled by I1 and i2 [Q1] [M2] Input under the function Program Mode Count up/down Present Count Value When the target value is reached,C3=ON The input point C3 in the Ladder program 0000 should be ON...
  • Page 159 Mode1&2 Mode3&4 Input count pulse Power switch 2. Timer Symbol Description Timing Mode (1-7)  Timing unit: 1: 0.0 – 999.9 sec  2: 0 – 9999 sec 3: 0 – 9999 min Use (I1 ~ f8) to RESET the timing value.
  • Page 160 Sample: Input under the Ladder Program Mode When I1=ON, the fifth Timer starts [T5] operating [Q1] Input under function Program Mode Timing unit =0.1sec Timer Mode1 When the time reaches to the target value 10.0 sec, T5 is ON 000.0 010.0 Target(srtting) value in timer Present value in timer...
  • Page 161 (4)Timer Mode 4(OFF-Delay Timer Mode2) Enable reset relay Enable reset relay Present value=0 Timer starts operating Present value=0 Timing enable relay Timing up,output(T1~T8) Enable reset relay t=Target value set in the timer (5) Timer Mode 5 (FLASH Timer Mode 1) Enable reset relay Enable reset relay Present value=0...
  • Page 162 3. Analog comparator Symbol Description Analog comparison mode (1-3)  Selection of the input comparison value  (AS1~AS4,MD1~MD4,T1~T8,C1~C8,V 1~V7) Setting reference comparison value  (up limit) Setting reference comparison value Upper Limit  (AS1~AS4,MD1~MD4,T1~T8,C1~C8,V 1~V7,count) Setting reference comparison value Lower Limit ...
  • Page 163 4. Running Instruction Symbol Description Running mode could be set via I1~f8  OFF:(FWD) ON:(REV) Preset Speed could be set via I1~f8 Operating at the frequency OFF:  set on  ON:Operating at the frequency set on  Selected frequency for constant ...
  • Page 164 5. ACC- DEC module symbol Description Calculation results RESULT   addend V1(AS1~AS4,MD1~MD4,T1~T8,C1~C8,V1~V7, constant) addend  V2(AS1~AS4,MD1~MD4,T1~T8,C1~C8,V1~V7, constant) filamentous  V3(AS1~AS4,MD1~MD4,T1~T8,C1~C8,V1~V7, constant)  Error signal coil output ( M1~MF) NOP / Instruction code of ACC- DEC module  RESULT= V1+V2-V3 Sample: Input under the Ladder Program Mode ON/OFF of I1 controls the Run /Stop...
  • Page 165 6. MUL- DIV module symbo Description Calculation results RESULT  multiplierA(AS1~AS4,MD1~MD4,  T1~T8,C1~C8,V1~V7, constant) multiplierB (AS1~AS4,MD1~MD4,T1~T8,C1~  C8,V1~V7, constant) divisor (AS1~AS4,MD1~MD4,T1~T8,C1~  C8,V1~V7, constant) Error signal coil output(  M1~MF) Instruction code of MUL- DIV  module RESULT =V1*V2/V3 Sample: Input under the Ladder Program Mode ON/OFF of I1 controls the Run /Stop (MD1)

  • Page 166: Chapter 5 Troubleshooting And Maintenance

    Chapter 5 Troubleshooting and Maintenance 5.1 Error display and corrective action 5.1.1 Manual Reset and Auto-Reset Faults which can not be recovered manually Display Content Cause Corrective action Voltage too -OV- high when Detection circuit malfunction Consult with the supplier stopped 1.Check if the power voltage -LV-...
  • Page 167 Display Cause Corrective action Content OC-d Over-current at The preset deceleration time Set a longer deceleration time deceleration is too short. OC-S 1. Short circuit between the Over current at motor coil and the case 1.Inspect the motor 2. Short circuit between motor 2.Inspect the wiring start 3.Consult with the supplier...

  • Page 168: Keypad Operation Error Instruction

    Display Content Cause Corrective action Inrush current LIFE1 suppression Inrush current suppression circuit life Consult with the supplier circuit is damaged expectancy alarm Control circuit LIFE2 capacitor life Control circuit capacitor is Consult with the supplier expectancy damaged alarm Main Circuit LIFE3 Capacitor life Capacitor Main Circuit is...

  • Page 169: Special Conditions

    Display Content Cause Corrective action 1.Wiring error Err6 2.Communication 1. Check hardware and wiring Communication parameter setting error. 2. Check Functions failed 3.Incorrect communication (09-00~09- 05). protocol 1.Attempt to modify the Err7 function 13-00/13-08. If reset is not possible, please Parameter conflict 2.Voltage and current consult with the supplier.

  • Page 170: General Troubleshooting

    5.2 General troubleshooting Status Checking point Remedy Is the wiring for the output Wiring must match U, V, and W terminals of Motor runs terminals correct? the motor. in wrong Is the wiring for forward and Check for correct wiring. direction reverse signals correct? Is the wiring for the analog...

  • Page 171: Troubleshooting Of The Inverter

    5.3 Troubleshooting of the Inverter 5.3.1 Quick troubleshooting of the Inverter INV Fault Is fault known? Symptoms other than burn Any Symptoms of burn Check burnt and out, damage, or fuse out and damage? damaged parts meltdown in the inverter? Is the main circuit DM Fault signal? Consult with the supplier...
  • Page 172 From previous page Check Inverter parameters Perform parameter initializations Specify operation control mode Does the FWD or REV Replace the control LED light flash? board Set up frequency command Is the frequency value Replace the control displayed on the display? board Are there voltage outputs at Replace the control...

  • Page 173: Troubleshooting For Oc, Ol Error Displays

    5.3.2 Troubleshooting for OC, OL error displays The inverter displays OC, OL errors Is the main circuit I.G.B.T Replace I.G.B.T working Replace faulty circuit Any visual abnormalities? board Apply power Is the current detector Replace the current Any abnormal indications? controller Input operation command Replace control board...

  • Page 174: Troubleshooting For Ov, Lv Error

    5.3.3 Troubleshooting for OV, LV error The inverter displays OV, LV Is the main circuit fuse intact? Consult with the supplier Any visual abnormalities? Consult with the supplier Apply power Any abnormal indications? Consult with the supplier Input operation command Is FWD LED still illuminated after flash Consult with the supplier Input frequency commands...

  • Page 175: Motor Not Running

    5.3.4 Motor not running The motor can not run Is MCCB On? Can MCCB be turned On? Short circuited wiring 1.The power is abnormal Are voltages between power terminals correct? 2.Incorrect wiring Is LED lit? INVfault The operation switch is set to Is the operation switch in  ...

  • Page 176: Motor Overheating

    5.3.5 Motor Overheating M o to r O v e rh e a tin g Is lo a d o r c u rre n t e x c e e d in g C o n s id e r re d u c in g th e lo a d a n d in c re a s in g Y E S th e s p e c ifie d v a lu e ? th e c a p a c itie s o f th e in v e rte r a n d m o to r...

  • Page 177: Motor Runs Unbalanced

    5.3.6 Motor runs unbalanced Motor runs unbalanced Does it happen Is the acceleration Increase the Acc/ Dec time during eceleration? time correct? Reduce the load.Increase capacities of INV and the motor. Are the output voltages INV faults between U-V,V-W,W-U balanced? Reduce the load fluctuation Is the load fluctuating? or add a flywheel.

  • Page 178: Routine And Periodic Inspection

    5.4 Routine and periodic inspection To ensure stable and safe operation, check and maintain the inverter at regular intervals. Use the checklist below to carry out inspection. Disconnect power after approximately 5 minutes to make sure no voltage is present on the output terminals before any inspection or maintenance.

  • Page 179: Maintenance

    Peripheral device Whether rheostat wiring Replacement Rheostat or connector are Visual check ◎ rheostat damaged Check contacts and connections for any ◎ Electromagnetic Replacement abnormalities abnormality. Contactor Contactor Unusual vibration and hearing check ◎ noise Is there any Replacement Reactor Visual check ◎...

  • Page 180: Chapter 6 Peripheral Components

    1.42 23.0 1.06 31.0 0.53 0.42 6.2 Electromagnetic Contactor Circuit Breaker Molded-case circuit Magnetic contactor (MC) Model: E510-□□□-XXX breaker made made by TECO by TECO TO-50E 15A 201/202 TO-50E 20A CN-11 203/205 TO-50E 30A TO-50E 50A CN-18 TO-100S 60A CN-25...

  • Page 181: Fuse Specification

    6.3 Fuse Specification Model: E510-□□□-XXX Fuse types 15A, 300VAC 2P5/201 30A, 300VAC 202/203 30A, 300VAC 208/210 60A, 300VAC 215/220 100A, 300VAC 5 A, 600VAC 10A, 600VAC 15A, 600VAC 20A, 600VAC 408/410 40A, 600VAC 70A, 600VAC 6.4 Fuse Specification (UL Model Recommended) Manufacture Type Rating...

  • Page 182: Brake Resistor

    6.5 Brake Resistor Minimum Motor Brake Specification Horse Resistance Model: E510-□□□-XXX Capacity ED(%) Torque (HP) (KW) (Ω) (Ω) 0.75 1000 1200 13.6 1500 1200 13.6 1500 0.75 1000 1200 1200 1000 1200 1500 2400 18.5 2000 4000 ※ Note: Formula for brake resistor: W= (Vpnb * Vpnb) * ED% / Rmin 1.

  • Page 183: Noise Filter

    6.6 Input Noise filter Frame model rated input Noise filter model name rated current(A) 1ψ 200 ~ 240V E2F-2102 E510-2P5-H 3ψ 200 ~ 240V FN3258-16-45 1ψ 200 ~ 240V E2F-2102 E510-201-H 3ψ 200 ~ 240V FN3258-16-45 1ψ 200 ~ 240V FS6146-27-07 E510-202-H 3ψ...
  • Page 184 Appendix-1 Instructions for UL Appendix-1 Instructions for UL ◆ Safety Precautions DANGER Electrical Shock Hazard Do not connect or disconnect wiring while the power is on. Failure to comply will result in death or serious injury. W ARNING Electrical Shock Hazard Do not operate equipment with covers removed.
  • Page 185 UL approval requires crimp terminals when wiring the drive’s main circuit terminals. Use crimping tools as specified by the crimp terminal manufacturer. Teco recommends crimp terminals made by NICHIFU for the insulation cap. The table below matches drives models with crimp terminals and insulation caps. Orders can be placed with a Teco representative or directly with the Teco sales department.
  • Page 186 Appendix-1 Instructions for UL Recommended Input Fuse Selection Fuse Type Drive Model E510 Manufacturer: Bussmann / FERRAZ SHAWMUT Model Fuse Ampere Rating (A) 200 V Class Single / Three-Phase Drives 2P5-HXXX Bussmann 20CT 690V 20A 201-HXXX Bussmann 20CT 690V 20A 202-HXXX Bussmann 35FE 690V 35A...
  • Page 187 Appendix-1 Instructions for UL ◆ Drive Motor Overload Protection Set parameter 02-01 (motor rated current) to the appropriate value to enable motor overload protection. The internal motor overload protection is UL listed and in accordance with the NEC and CEC. ■...
  • Page 188 Appendix 2: E510 parameter setting list Customer Inverter Model Site Location Contact Phone Address Parameter Setting Parameter Setting Parameter Setting Parameter Setting code content code content code content code content 00-00 02-08 04-03 05-27 00-01 02-09 04-04 05-28 00-02 02-10 04-05 05-29 00-03...
  • Page 189 Parameter Setting Parameter Setting Parameter Setting Parameter Setting code content code content code content code content 06-19 08-03 10-22 14-05 06-20 08-04 11-00 14-06 06-21 08-05 11-01 14-07 06-22 08-06 11-02 14-08 06-23 08-07 11-03 14-09 06-24 08-08 11-04 14-10 06-25 08-09 11-05...
  • Page 190 Parameter Setting Parameter Setting Parameter Setting Parameter Setting code content code content code content code content 15-05 15-17 15-29 15-06 15-18 15-30 15-07 15-19 15-31 15-08 15-20 15-32 15-09 15-21 15-10 15-22 15-11 15-23 15-12 15-24 15-13 15-25 15-14 15-26 15-15 15-27 15-16...
  • Page 191 Appendix 3: E510 MODBUS Communication protocol 1. Communication Data Frame E510 series inverter can be controlled by a PC or other controller with the Communication protocol, Modbus ASCII Mode & Mode RTU, RS485 or RS232. Frame length maximum 80 bytes.
  • Page 192 MASTER(PLC etc.) send request to SLAVE, whereas response to SLAVE MASTER. Address The signal receiving is illustrated here. The data length is varied with the command(Function). Function Code DATA CRC CHECK Signal Interval ** The interval should be maintained at 10ms between command signal and request. 1.3 Node (Address) 00H : Broadcast to all the drivers 01H : to the No.01 Drivers...
  • Page 193 2.2 CRC CHECK:CRC Check Code is calculated from SLAVE Address to end of the data. calculation method is illustrated as follow: (1). Load a 16-bit register with FFFF hex (all’s1).Call this the CRC register. (2). Exclusive OR the first 8-bit byte of the message with the low-order byte of the 16-bit CRC register, putting the result in the CRC register.
  • Page 194 3.Error code ASCII Mode RTU Mode SLAVE Address ‘:’ ‘0’ Function Address Exception ‘1’ code ‘8’ High Function CRC-16 ‘6’ Exception ‘5’ code ‘1’ ‘2’ LRC Check ‘8’ ‘CR’ ‘LF’ Under communication linking, the driver responses the Exception Code and send Function Code AND 80H to main system if there is error happened.
  • Page 195 Inverter Control 4.1 Command Data (Readable and Writable) Register No. Content Reserved 2500H Operation Signal Operation Command 1 : Run 0 : Stop Reverse Command 1 : Reverse 0 : Forward Abnormal 1 : EFO Fault Reset 1 : Reset Jog Forward Command 1 : Jog Forward Jog Reverse Command...
  • Page 196 Register Content abnormity The inverter is normal Under voltage during running( LV-C ) Inverter over heat)( OH ) Over voltage at constant speed( OV-C ) Over current at stop)( OC ) Inverter over heat during running( OH-C ) Under voltage( LV ) stop at 0 Hz( STP0 ) Over voltage)( OV ) Direct start disable)( STP1 )
  • Page 197 Register No. Content 2523H frequency command(100/1Hz) 2524H Output frequency (100/1Hz) 2525H Output voltage command (10/1V) 2526H DC voltage command (1/1V) 2527H Output current (10/1A) 2528H Temperature 2529H Output torque 252AH PID feedback (100% / fmax , 10/1% ) 252BH PID input (100% / fmax, 10/1%) 252CH TM2 AVI input value (1000 / 10V) *1 252DH...
  • Page 198 4.3Read the data in the holding register [03H] Master unit reads the contents of the holding register with the continuous number for the specified quantity. Note:1、Limit number of read data,RTU: 37,ASCII:17. 2、Can only Continuous read the address of the same Group 3、Read data Quantity≥1.
  • Page 199 4.4 LOOP BACK testing [08H] The function code checks communication between MASTER and SLAVE. The instruction message is returned as a response message without being changed. Any value can be used for test codes or data. ASCII Mode Instruction Message Response Message (Normal) Response(Fault) Node Address...
  • Page 200 4.5 Write holding register [06H] Specified data are written into the several specified holding registers from the Specified respectively. (Example)Set SLAVE station No:01, writeE510 drive frequency reference 60.0HZ. ASCII Mode Instruction Message Response Message (Normal) Response (Fault) Node Node Address Node Address Address Function...
  • Page 201 4.6 Write in several holding registers [10H] Specified data are written into the several specified holding registers from the Specified number, respectively. Note: 1. Limit number of read data,RTU: 35, ASCII:15. 2. Can only Continuous read the address of the same Group. 3.
  • Page 202 RTU Mode Instruction Message Response Message (Normal) Response(Fault) Node Address Node Address Node Address Function Code Function Code Function Code High High Error Code Start Start Address Address High CRC-16 High High Quantity Quantity DATA Number * 04H High CRC-16 First High DATA...
  • Page 203 5. Comparison list between parameter and register Note: Parameter register No.: GGnnH, “GG”means Group number , “nn” means Parameter number for example: the address of Pr 08-03 is 0803H. the address of Pr 10-11 is 0A0BH Register Function Register Function Register No.
  • Page 204 Register No. Function Register No. Function Register No. Function Group03 Group04 Group05 0300H 03-00 0400H 04-00 0500H 05-00 0301H 03-01 0401H 04-01 0501H 05-01 0302H 03-02 0402H 04-02 0502H 05-02 0303H 03-03 0403H 04-03 0503H 05-03 0304H 03-04 0404H 04-04 0504H 05-04 0305H...
  • Page 205 Register No. Function Register No. Function Register No. Function Group03 Group04 Group05 0524H 05-36 0525H 05-37 0526H 05-38 0527H 05-39 0528H 05-40 0529H 05-41 052AH 05-42 052BH 05-43 052CH 05-44 052DH 05-45 052EH 05-46 052FH 05-47 0530H 05-48 Register No. Function Register No.
  • Page 206 Register No. Function Register No. Function Register No. Function Group06 Group07 Group08 0614H 06-20 0615H 06-21 0616H 06-22 0617H 06-23 0618H 06-24 0619H 06-25 061AH 06-26 061BH 06-27 061CH 06-28 061DH 06-29 061EH 06-30 061FH 06-31 0620H 06-32 0621H 06-33 0622H 06-34 0623H...
  • Page 207 Register No. Function Register No. Function Register No. Function Group09 Group10 Group11 0900H 09-00 0A00H 10-00 0B00H 11-00 0901H 09-01 0A01H 10-01 0B01H 11-01 0902H 09-02 0A02H 10-02 0B02H 11-02 0903H 09-03 0A03H 10-03 0B03H 11-03 0904H 09-04 0A04H 10-04 0B04H 11-04 0905H...
  • Page 208 Register No. Function Register No. Function Register No. Function Group12 Group13 Group15 *Note 0C00H (fourth digit to first digit) 12-00 0D00H 13-00 0E20H 15-32 2505H (fifth digit) 0C01H 12-01 0D01H 13-01 0C02H 12-02 0D02H 13-02 0C03H 12-03 0D03H 13-03 0C04H 12-04 0D04H 13-04...
  • Page 209 Appendix4: PLC Communication Protocol E510 PLC MEMORY MAP Ladder Code(0-20 Line) A000h~A031h 50words Ladder Code(21-40 Line) A032h~A063h 50words Ladder Code(41-60 Line) A064h~A095h 50words Ladder Code(61-80 Line) A096h~A0C7h 50words Timer Code A200h~A227h 40words Counter Code A228h~A247h 32words Analog Code A248h~A25Fh 24words Operation control instruction A260h~A28Fh 48words...
  • Page 210 Trigger detection (judgement forFunction) Encoder Bit A458h Analog Bit Timer Bit (Current state) A459h Timer Bit (Last state) Counter Bit (Current state) A45Ah Counter Bit (Last state) Operation Control Bit A45Bh AS Bit MD Bit A45Ch PLC Operation instruction RUN&STOP A600h Clear all memory A601h...
  • Page 211 Code in the EEPROM/RAM Arrangement A. Ladder Part ( Note: L =Low byte , H = High byte Page Address Location Code A000h A001h A002h A003h A004h A005h A006h A007h A008h V1~ V4 V5~ V8 A009h V9~V12 V12 V11 V10 V9 Reserved App4-3...
  • Page 212 Page Address Location Page Address Location A00Ah A014h A00Bh A015h A00Ch A016h A00Dh A017h A00Eh A018h A00Fh A019h A010h A01Ah A011h A01Bh A012h V1~V4 A01Ch V1~V4 V5~V8 V5~V8 A013h V9~V12 A01Dh V9~V12 Reserved Reserved Page Address Location Page Address Location A01Eh A028h A01Fh...
  • Page 213 Page Address Location Code A032h ( Byte ) ( Byte ) A033h ( Byte ) ( Byte ) A034h ( Byte ) ( Byte ) A035h ( Byte ) ( Byte ) A036h ( Byte ) ( Byte ) A037h ( Byte ) ( Byte ) A038h...
  • Page 214 Address Page Location Page Address Location A03Ch A046h A03Dh A047h A03Eh A048h A03Fh A049h A040h A04Ah A041h A04Bh A042h A04Ch A043h A04Dh A044h V1~V4 A04Eh V1~V4 V5~V8 V5~V8 A045h V9~V12 A04Fh V9~V12 Reserved Reserved Page Address Location Page Address Location A050h A05Ah A051h...
  • Page 215 Page Start address Length(word) A064 A06E A078 A082 A08C A096 A0A0 A0AA A0B4 A0BE A0C8 App4-7...
  • Page 216 B. FUNCTION BLOCK 1. Timer (10Byte)-------- A200h~A227h(8groups) Mode7 Set value data types Flag A2B8h Timer1 A200h~A204h Timer5 A214h~A218h Timer2 A205h~A209h Timer6 A219h~A21Dh Timer3 A20Ah~A20Eh Timer7 A21Eh~A222h Timer4 A20Fh~A213h Timer8 A223h~A227h 2. Counter (8Byte)--------- A228h~A247h(8groups) Counter1 A228h~A22Bh Counter5 A238h~A23Bh Counter2 A22Ch~A22Fh Counter6 A23Ch~A23Fh Counter3...
  • Page 217 4. Operation Control Instruction (12Byte)--------- A260h~A28Fh(8groups) Control1 A260h~A265h Control5 A278h~A27Dh Control2 A266h~A26Bh Control6 A27Eh~A283h Control3 A26Ch~A271h Control7 A284h~A289h Control4 A272h~A277h Control8 A28Ah~A28Fh ( ) 5. Add-Subtract 10bytes -----A290h~A2A3h(4groups) Add-Subtract1 A290h~A294h Add-Subtract2 A295h~A299h Add-Subtract3 A29Ah~A29Eh Add-Subtract4 A29Fh~A2A3h ( ) 6. Multiply-Divide 10bytes A2A4h~A2B7h (4groups) Multiply-Divide1...
  • Page 218   7. PLC RUN A600h~ CLEAR MEMORY A601h RUN&STOP---------- CLEAR PLC MEMORY-- RS : PLC Operation instruction(Bit 0) 0: PLC stop 1: PLC Run C : PLC ALL MEMORY CLEAR(Bit 0) 0: Disable 1: Enable App4-10...
  • Page 219 Appendix 5: JN5-CM-USB instruction manual 1. Model number and specification 1.1 Model number and function instruction JN5-CM-USB is a RS232 USB type converted to RS485 communication format. It is used for communication control between PC and inverter. 1.2 Dimensions of JN5-CM-USB 1.3 Connection between inverter and computer.
  • Page 220 2. USB Interface Cable Pin Definition 2.1 RS232/USB at PC side. RS485/RJ45 connector at inverter side. 2.2 RS485/RJ45 Pin Definition. Pin No. Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Define Note: 1.
  • Page 221 For connection of TCP-IP JN5-CM-TCP-IP communication protocol Communication For 510 series modules For connection of DeviceNet JN5-CM-DNET communication protocol For connection of CANopen JN5-CM-CAN communication protocol JN5-CM-USB 1.8m RJ45 to USB Using the TECO exclusive connection cable PC-software line JN5-CM-USB-3 App 6-1...

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