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TM TMP Series Instruction Manual

High performance vector control inverter
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User Manual
The technical parameters are subject to change without notices.
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Figures herein are for information only.

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  • Page 1 TMP High Performance Vector Control Inverter User Manual The technical parameters are subject to change without notices. All rights reserved. Figures herein are for information only.
  • Page 2 TMP High Performance Vector Control Inverter User Manual Instruction Manual TMP Series High Performance Vector Control Inverter TM, control and protect your motors TM Industry Co.Ltd.

  • Page 3: Table Of Contents

    TMP High Performance Vector Control Inverter User Manual Contents Chapter 1 Introduction to TMP Series Inverter ................1 1.1 Product Model Description ....................... 1 1.2 Product Nameplate Description ....................... 1 1.3 Product Series ..........................6 1.4 Product Specifications ........................8 1.5 Product Component Name ......................
  • Page 4 TMP High Performance Vector Control Inverter User Manual Chapter 5 List of Parameters ......................38 5.1 Function Parameter Table ......................38 Chapter6 Detail Function Introduction ..................... 56 P0 Basic function parameters ......................56 P1 Auxiliary function parameters 1 ....................... 61 P2 Auxiliary function parameters 2 .......................

  • Page 5: Chapter 1 Introduction To Tmp Series Inverter

    TMP High Performance Vector Control Inverter User Manual Chapter 1 Introduction to TMP Series Inverter 1.1 Product Model Description The digits and letters in the inverter model field on the nameplate indicate such information as the product series, power supply class, power class and software/hardware versions.

  • Page 6: Safety Precautions

    TMP High Performance Vector Control Inverter User Manual Safety Precautions Description of safety marks: Danger: The misuse may cause fire, severe injury, even death. Note: The misuse may cause medium or minor injury and equipment damage.  Use  This series of inverter is used to control the variable speed operation of three-phase motor and cannot be used for single-phase motor or other applications.
  • Page 7 TMP High Performance Vector Control Inverter User Manual  Wiring Danger Danger  The wiring must be conducted by qualified electricians. Otherwise, there exists the risk of electric shock or inverter damage.  Before wiring, confirm that the power supply is disconnected. Otherwise, there exists the risk of electric shock or fire.
  • Page 8 TMP High Performance Vector Control Inverter User Manual  Operation  Power supply can only be connected after the wiring is completed and the cover is installed. It is forbidden to remove the cover in live condition; otherwise, there exists the risk of electric shock.
  • Page 9 TMP High Performance Vector Control Inverter User Manual  The circuit boards have large scale CMOS IC. Please do not touch the board to avoid the circuit board damage caused by electro static.  Others  It is forbidden to modify the inverter unauthorizedly; otherwise, personal injury may be caused.

  • Page 10: Product Series

    TMP High Performance Vector Control Inverter User Manual 1.3 Product Series □□□  TMP− Three-phase 400V Constant torque/heavy-duty application Power (kW) 0.75 18.5 Motor 0.75 18.5 power (kW) Voltage (V) Three-phase 0 to rated input voltage Rated current Output Overload 1150% 1 minute, 180% 2 seconds, 200% 0.5 second, interval: 10 minutes (inverse time lag capacity feature)
  • Page 11 TMP High Performance Vector Control Inverter User Manual □□□  TMP− P -4 Three-phase 400V Variable torque/light-duty application Power (kW) 18.5 Motor 18.5 power (kW) Voltage (V) Three-phase 0 to rated input voltage Output Rated current (A) 142 176 Overload capacity 120% 1 minute, 145% 2 second, interval: 10 minutes (inverse time lag feature) Rated Three-phase 380V/480V;...

  • Page 12: Product Specifications

    TMP High Performance Vector Control Inverter User Manual 1.4 Product Specifications Item Specifications Rated Output Voltage Three phase 380V (Max output voltage is equal to input voltage) Max continuous current 100% rated output current OUTPUT 150% rated current for 1minutes, Overload ability 180% rated current for 2 seconds.
  • Page 13 TMP High Performance Vector Control Inverter User Manual signal Analog input 1 channel, 0~10V/0~20mA DC,10 bit; 1 channel, 0~10 V DC,10 bit Analog output 1 channel, 0~10V, output programmable, various output selectable 1 channel, 0~10V/0-2 0mA, output programmable, various output selectable Programmable terminal 7 programmable channels, 27 kinds of functions can be selected, such as Run...
  • Page 14 TMP High Performance Vector Control Inverter User Manual 0.75 kW and below: enclosed self-cooling, Cooling Others: forced cooling.

  • Page 15: Product Component Name

    TMP High Performance Vector Control Inverter User Manual 1.5 Product Component Name Mounting hole Dust guard Mounting hole Cooling fan Heatsink Upper cover Enclosure Operation panel Operation panel Nameplate Nameplate Cover Lower cover TMP−0R4G-2~TMP−2R2G-2 TMP−7R5G-4 and below power class TMP-011G-4 and above power class Fig.1−3 Product component name 1.6 Product Outline, Mounting Dimension, and Weight TMP−0R4G-2~TMP−2R2G-2、TMP−0R7G-4~TMP-7R5G-4 and blow power class...
  • Page 16 TMP High Performance Vector Control Inverter User Manual Product outline, mounting dimension, and weight Inverter model Outline and mounting dimension (mm) roxi Moun Volta ting weig hole class (kg) diam ) eter TMP-0R4G-2/0R7G-2 118.5 106.5 174.5 220V TMP−1R5G-2/2R2G-2 TMP-3R7G-2 183.8 136.8 175.3 TMP−0R7G-4/1R5P-4...

  • Page 17: Operation Panel Outline And Mounting Dimension

    TMP High Performance Vector Control Inverter User Manual TMP−220G-4 TMP−250P-4 Cabinet TMP−185G-4 TMP−200P-4 1372 TMP−200G-4 TMP−220P-4 TMP−220G-4 TMP−250P-4 Wall Mounted TMP−250G-4 TMP−280P-4 1168 1207.5 TMP−280G-4 TMP−315P-4 TMP−315G-4 Cabinet TMP−250G-4 TMP−280P-4 TMP−280G-4 1592 TMP−3150P-4 TMP−315G-4 TMP−355P-4 TMP−355G-4 1737 TMP−400P-4 TMP−400G-4 TMP−450P-4 1.7 Operation Panel Outline and Mounting Dimension 5 0.00 STOP...

  • Page 18: Pallet Outline And Mounting Dimension

    TMP High Performance Vector Control Inverter User Manual 1.8 Pallet Outline and Mounting Dimension TMP−DP03 is the mounting pallet when the operation panel is to install on the electric control cabinet. The outline and dimension are as follows: (TMP-DP03) Pallet Open pore dimension of pallet Fig.1-6 Pallet outline and mounting dimension...

  • Page 19: Braking Resistor Lectotype

    TMP High Performance Vector Control Inverter User Manual 1.9 Braking Resistor Lectotype Braking resistor unit Brakin Inverter model Braking torque% Resis g unit Power Qty. TMP−0R4G-2 200Ω TMP−0R7G-2 200Ω TMP−1R5G-2 260W 100Ω TMP−2R2G-2 260W 70Ω 750Ω TMP−0R7G-4/1R5P-4 B u i l t - TMP−1R5G-4/2R2P-4 260W 400Ω...

  • Page 20: Chapter 2 Inverter Installation

    TMP High Performance Vector Control Inverter User Manual Chapter 2 Inverter Installation 2.1 Environment for Product Installation  Avoid installing the product in the sites with oil mist, metal powder and dust.  Avoid installing the product in the sites with hazardous gas and liquid, and corrosive, combustible and explosive gas.

  • Page 21: Removal And Mounting Of Operation Panel And Cover

    TMP High Performance Vector Control Inverter User Manual When the TMP inverters are mounted side by side in the cabinet, please remove the upper dust guard and the lower leading board. 2.3 Removal and Mounting of Operation Panel and Cover 2.3.1 Removal and Mounting of Operation Panel ...
  • Page 22 TMP High Performance Vector Control Inverter User Manual Fig.2−5 Removal of lower cover Fig.2−6 Removal of upper cover  Mounting of upper cover After the wiring of main circuit terminals and control circuit terminals, insert the upper claw grab of the upper cover into the groove of the inverter body, as shown in position 1 in Fig.2−7, and then press the lower part of the upper cover in direction 2 as shown in Fig.2−7, until the “crack”...
  • Page 23 TMP High Performance Vector Control Inverter User Manual ~ 2.3.3 Removal Mounting Covers TMP−011G-4/015P-4 TMP−075G-4/090P-4and Above Power Class Inverter with Sheet-metal Enclosure  Removal of operation panel Please refer to 2.3.1 Removal and mounting of operation panel.  Removal of cover Remove the mounting screws on the lower part of the cover, lift the cover in direction 1 as shown in Fig.2−9, and then take out the cover in direction 2.
  • Page 24 TMP High Performance Vector Control Inverter User Manual The operation panel is connected to the control board through the standard network cable and will not interfere with the open/close of the door. To remove the operation panel, refer to section 2.3.1 Removal and Mounting of Operation Panel ...

  • Page 25: Chapter 3 Wiring Of Inverter

    TMP High Performance Vector Control Inverter User Manual Chapter 3 Wiring of Inverter 3.1 Connection of the Product and Peripheral Devices Power supply Circuit breaker or leakage circuit breaker Contactor Input AC reactor Input noise filter DC reactor Inverter Grounding Output noise filter Braking resistor Output AC reactor...

  • Page 26: Description Of Peripheral Devices For Main Circuit

    TMP High Performance Vector Control Inverter User Manual 3.2 Description of Peripheral Devices for Main Circuit The capacity of the circuit breaker shall be 1.5 ~ 2 time of the rated current of the inverter. Circuit breaker The time features of the circuit breaker shall fully consider the time features of the inverter overload protection.
  • Page 27 TMP High Performance Vector Control Inverter User Manual ⊕ ⊕ Grounding terminal R/L1, S/L2, T/L3, 2/B1, B2, Ө , U/T1, V/T2, W/T3 Circuit Contactor Inverter model Breaker Tightenin Wire Tightening Wire Terminal Terminal g torque specificatio torque specification screw screw (N·m) n (mm (N·m)

  • Page 28: Product Terminal Configuration

    TMP High Performance Vector Control Inverter User Manual 3.4 Product Terminal Configuration Control circuit terminal Main circuit terminal Grounding terminal TMP−0R4-2G~TMP−2R2G-2 TMP−7R5G-4/011P-4 TMP−7R5G-4/011P-4 and below power class and above power class Fig.3−2 Product terminal configuration...

  • Page 29: Functions Of Main Circuit Terminal

    TMP High Performance Vector Control Inverter User Manual 3.5 Functions of Main Circuit Terminal 3.5.1 TMP−0R4G-2~TMP−2R2G-2 和 TMP−0R7G-4/1R5P-4~TMP−015G-4/018P-4 Terminal symbol Terminal name and function description R、S、T Three-phase AC input terminal ⊕ 、B Connecting terminal of braking resistor ⊕ Ө 、 DC power input terminal;...
  • Page 30 TMP High Performance Vector Control Inverter User Manual  Avoid short circuit the output cable and the inverter enclosure, otherwise there exists the danger of electric shock.  It is forbidden to connect the output terminal of the inverter to the capacitor or LC/RC noise filter with phase lead, otherwise, the internal components of the inverter may be damaged.
  • Page 31 TMP High Performance Vector Control Inverter User Manual 3.6.4 Countermeasures for Conduction and Radiation Interference Inverter Inverter Input filter Input filter Filtering cable Filtering cable Fig.3−4 Noise current illustration  When the input noise filter is installed, the wire connecting the filter to the inverter input power end shall be as short as possible.

  • Page 32: Terminal Wiring

    TMP High Performance Vector Control Inverter User Manual 3.7 Terminal Wiring Braking resistor Circult braker Morotr Three phase AC power supply Mortor grounding Power grounding Main circult Control circult Multi function input 1 (DC 0 ~ 10V) Analog output 1 Multi function input 2 Multi function input 3 Multi function input 4...

  • Page 33: Functions Of Control Circuit Terminals

    TMP High Performance Vector Control Inverter User Manual 3.8 Functions of Control Circuit Terminals Terminal Terminal function Type Technical specification symbol description Positive end of 485 Rate: 4800/9600/19200/38400/57600bps 485+ differential signal Up to 32 sets of equipment can be paralleled. Relay shall be used if the number exceeds 32.

  • Page 34: Lectotype Of Control Circuit Peripheral Devices

    TMP High Performance Vector Control Inverter User Manual Analog grounding Internal isolated with COM A1-B1:Normally open Relay A1/B1/C1 Relay output C1-B1: Normally closed output Contact capacity: 250VAC/1A, 30VDC/1A Note: ﹡ If the user connects adjustable potentiometer between +10V and GND, the resistance of the potentiometer shall be no less than 5kΩ, Note: 1.

  • Page 35: Chapter 4 Using Instructions Of Operation Panel

    TMP High Performance Vector Control Inverter User Manual Chapter 4 Using Instructions of Operation Panel 4.1 Introduction to Operation Panel Shuttle type operation pane(TMP−DP01) Analog type operation pane(TMP−DP02) Fig. 4−1 Display unit of operation panel 4.2 Descriptions of Indicators Symbol of Name Meanings Color...

  • Page 36: Description Of Keys On Operation Panel

    TMP High Performance Vector Control Inverter User Manual 4.3 Description of Keys on Operation Panel Symbol Name Function Shuttle-type Analog type Switch between program and other states, which includes 1、 Programming parameters display and programming; In menu status, press key PRG this key to return previous menu.

  • Page 37: Keypad Operating Status

    TMP High Performance Vector Control Inverter User Manual 4.4 Keypad Operating Status 4.4.1 Initialization after power on When the power is switched on, panel will start 5 seconds’ initiation process. During this process, LED displays "8.8.8.8.” , and all LED indicators on the panel are in ON state 4.4.2 Stopping State In stopping state, LED displays default parameters in flashing mode, and the unit...

  • Page 38: Panel Operation Method

    TMP High Performance Vector Control Inverter User Manual 4.5 Panel Operation Method 4.5.1 Panel Operation Procedure Parameter setting method via panel: through three-level menu, users can look up and modify the function codes very easily. Three level menu structure: function parameters (first level) → function codes(second level)→value of function code(third level).

  • Page 39: Parameter Display

    TMP High Performance Vector Control Inverter User Manual stopping state / running state 50.00 018.5 007.5 Stop monitoring 0.4~999.9KW 0.4~999.9 KW parameters By two times -P0- 018.5 P3.01 Basic 0.4~999.9KW Motor rated parameters voltage By three times -P3- 008.5 50.00 motor Stop monitoring 0.4~999.9KW...

  • Page 40: Motor Auto-Tuning Procedure

    TMP High Performance Vector Control Inverter User Manual Switch of the running parameters 4.6.2 In running state, maximum 15 running state parameters can be displayed by TMP drive SHIFT key. 4.7 Motor auto-tuning procedure Before selecting vector control mode, user should input motor parameters correctly. TMP drive can get motor’s standard parameters according to the parameters on nameplate;...

  • Page 41: Running For The First Time

    TMP High Performance Vector Control Inverter User Manual 4.8 Running for the First Time Please follow the procedures to run the inverter for the first time: Note: ◆If fault happens, please judge the fault causes and clear the fault according to 7.1 Fault and alarm information list.

  • Page 42: Chapter 5 List Of Parameters

    TMP High Performance Vector Control Inverter User Manual Chapter 5 List of Parameters Meanings of Each Item in Function Code Parameter Table Item M e a n i n g s Function code The number of function code, such as P0.00 number Function code The name of function code, which explains the function code’s meanings.
  • Page 43 TMP High Performance Vector Control Inverter User Manual 10:Panel potentiometer setting (0~5V) P0.04 Main Frequency gain 1.000 0.000-9.999 P0.05 Zero frequency 0:Digital frequency of P0.11 source 1:External analog signal: AI1 2:External analog signal: AI2 multi-speed mode 3: Panel potentiometer setting (0~5V) P0.06 Auxiliary frequency 0:External analog signal: AI1(0~10V)
  • Page 44 TMP High Performance Vector Control Inverter User Manual P0.11 50.00 Digital frequency 0~400.0Hz setting P0.12 Rotating direction 0: FWD (Keypad operation) 1: REV P0.13 50.00 Maximum output 50.00~400.0 Hz frequency P0.14 50.00 High frequency limit 0.00~ Maximum output frequency P0.15 Low frequency limit 0.00Hz~ High frequency limit P0.16...
  • Page 45 TMP High Performance Vector Control Inverter User Manual 1: Dec-to-stop + DC braking 2: Free run to stop Initial frequency of P1.06 0.00~20.00Hz DC injection braking DC injection braking P1.07 0:No operation time 0.1~60.0s DC injection braking P1.08 0.0~100.0%(motor rated current) current P1.09 Acc/Dec...
  • Page 46 TMP High Performance Vector Control Inverter User Manual P1.19 control 0:always run after power on function 1: stop fan after inverter stop running P2 Group Auxiliary function parameters 2 P2.00 20.0 Acc time 2 0.1~3600s P2.01 20.0 Dec time 2 0.1~3600s P2.02 20.0...
  • Page 47 TMP High Performance Vector Control Inverter User Manual P2.27 0.00 Jump frequency range 0.00~20.00 Hz P2.28 FWD/REV dead time 0.0~3600s P2.29 REV prohibited 0: REV enabled 1: REV disabled P2.30 Carrier frequency 2.0~12.0KHz P2.31 0.00 Zero frequency 0.0~400.0Hz threshold P2.32 0.00 Zero frequency...
  • Page 48 TMP High Performance Vector Control Inverter User Manual no load parameter P3.11 reserved P4Group V/F control P4.00 0: Linear V/F 1: Square V/F V/f control mode 2: 1.5 times torque 3: 1.2 times torque 4: User defined V/f P4.01 Base voltage 0~440V P4.02 50.00...
  • Page 49 TMP High Performance Vector Control Inverter User Manual frequency P5.05 100.0 Slip compensation 50.0~200.0% gain P5.06 150.0 Driving torque limit 0~200.0% (motor rated current) P5.07 150.0 Braking torque limit 0~200.0% (motor rated current) P5.08 reserved P5.09 reserved P5.10 reserved P6 Group I/O parameters P6.00 FWD/REV mode 0: Two-line operation mode 1...
  • Page 50 TMP High Performance Vector Control Inverter User Manual 20: Start traverse operation 21:pause traverse operation 22:DC braking command 23:Acc/Dec disabled command 24:switch between panel control mode and external terminal control mode 25:switch between panel control mode and communication control mode 26: Counter trig signal 27: Counter reset signal 28: PID dormancy waking up...
  • Page 51 TMP High Performance Vector Control Inverter User Manual P6.13 0.00 FDT1 lag 0.00~10.00Hz P6.14 25.00 FDT2 level 0.00~400.0 Hz P6.15 0.00 FDT2 lag 0.00~10.00Hz P6.16 Preset value arriving 0~9999 P6.17 Specified value 0~9999 arriving P6.18 Terminal logic 0~255 P7 Group Analog input terminal P7.00 0.50 AI1 Filter time...
  • Page 52 TMP High Performance Vector Control Inverter User Manual P7.13 0.00 Frequency 0.00~100.0% (Maximum output frequency) corresponding F7.12 P7.14 0.0~100.0% Maximum pulse frequency P7.15 100.0 Frequency 0.00~100.0% (Maximum output frequency) corresponding F7.14 P8 Group Analog output terminal P8.00 AO1 output selection 0: Running frequency P8.01 1: Frequency setting...
  • Page 53 TMP High Performance Vector Control Inverter User Manual corresponding F8.08 P9 Group program operating parameters P9.00 Programming 0: Single cycle (Stop after a single cycle) operation function 1: Continuous cycle 2: Maintain the final value P9.01 Time Unit 0:Second 1:Minute P9.02 Stage 1 timing T1 0~3600.0...
  • Page 54 TMP High Performance Vector Control Inverter User Manual P9.24 T8 running mode 7:REV,Acc/Dec time 4 P9.25 T9 running mode P9.26 T10 running mode P9.27 T11 running mode P9.28 T12 running mode P9.29 T13 running mode P9.30 T14 running mode P9.31 T15 running mode P9.32 Record function...
  • Page 55 TMP High Performance Vector Control Inverter User Manual PA.10 Differential time 0.00, no differentiation 0.01~99.99s PA.11 Sample cycle 0.01~99.99s PA.12 Error limit 0.0~15.0% PA.13 Level abnormal 0~100% feedback signal PA.14 Detection time 0:No detection abnormal feedback 0.1~3600s signal PA.15 reserved PA.16 PID Sleep control No sleep function;...
  • Page 56 TMP High Performance Vector Control Inverter User Manual 1:2400BPS 2:4800BPS 3:9600BPS 4:19200BPS 5:38400BPS PC.01 (MODBUS) Data format 8,N,2 for RTU (MODBUS) 8,E,1 for RTU (MODBUS) 8,O,1 for RTU 7,N,2 for ASCII (MODBUS) 7,E,1 for ASCII(MODBUS) 7,O,1 for ASCII(MODBUS) 6: 8,N,1 free communication format 7:...
  • Page 57 TMP High Performance Vector Control Inverter User Manual pre-alarm detection 1: Detect all the time and alarm Pd.05 150.0 Overload detection 20.0~180.0% threshold Pd.06 Overload pre-alarm 0.0~60.0s delay Pd.07 150.0 Auto current limiting 20.0~180.0% threshold Pd.08 0.00 Frequency decrease 0.00~99.99 Hz/s rate during current...
  • Page 58 TMP High Performance Vector Control Inverter User Manual Pd.20 reserved PE Group group Reserve 1 PF group Reserve 2 PH Group Display parameters PH.00 running display Frequency setting parameters selection Running frequency Output current Output voltage Bus voltage Overload rate Preset line speed Running line speed Output torque...
  • Page 59 TMP High Performance Vector Control Inverter User Manual PH.03 Inverter Power PH.04 heatsink temperature 1 0~100 PH.05 heatsink temperature 2 0~100 PH.06 1st fault type PH.07 2nd fault type PH.08 3rd fault type PH.09 Bus voltage at last fault PH.10 Output current at last fault PH.11...

  • Page 60: Chapter6 Detail Function Introduction

    V/F control mode. P0.03 Main Frequency Source Setting range: 0~10 TMP series inverter has ten kinds of frequency setting mode. 0:Keypad setting,In this mode, present frequency is set by the Shuttle knob on the panel.
  • Page 61 3: Panel potentiometer setting (0~5V) P0.06 assit frequency setting Setting arrange:0~4 TMP series inverter has ten kinds of assist frequency setting mode 0:External analog signal AI1(0~10V) 1:External analog signal AI2(0~10V or 0-20mA), use S1(AI2) dial switch to determine voltage/current signal 2:External analog signaAI1(0~10V)with polarity control...
  • Page 62 TMP High Performance Vector Control Inverter User Manual 50Hz P7.10 P7.10 P7.01=50% P7.02=0Hz P7.06=50% P7.07=0Hz 50Hz Fig6-1 Polarity control of external analog signa P0.07 Auxiliary frequency range selection Setting range:0~1 Selecting the range of the auxiliary frequency 0:Maximum output frequency 1:Main frequency P0.08 Auxiliary frequency range Setting range:0~100%...
  • Page 63 TMP High Performance Vector Control Inverter User Manual The setting frequency source of the inverter can be switched between the main frequency and (Main frequency + Auxiliary frequency) with the external terminal defined by P6 Group parameter. 6:switch between Main frequency and (Main frequency - Auxiliary frequency) The setting frequency source of the inverter can be switched between the main frequency and (Main frequency - Auxiliary frequency)...
  • Page 64 TMP High Performance Vector Control Inverter User Manual 。 P0.13 Maximum output Setting range: 50Hz~400.0Hz frequency P0.14 High frequency limit Setting range: lower frequency limit ~ Maximum output frequency P0.15 Low frequency limit Setting range: 0.00Hz~Upper frequency limit The maximum output frequency is the maximum frequency which the inverter is able to output, shown in Fig.

  • Page 65: P1 Auxiliary Function Parameters 1

    0:General –type inverter (for constant torque load) 1:Pump –type inverter (for fan, punp) Some of the TMP series inverter combine the General-type and Pump-type into one device. The power of the motor of the General –type inverter is lower than Pump –type inverter.
  • Page 66 TMP High Performance Vector Control Inverter User Manual Output frequency Acc process Dec process Start Stop DC braking Frequency Start frequency P1.01 P1.06 Start DC Run time braking stop Start Frequency Hold time P1.02 Fig. 6-4 Start mode 1 (FWD, REV, Stop and RUN) diagram 2:Speed trace starting When the inverter begins running, first it detects the motor 's speed and direction, and then it starts smoothly at the detected speed and direction.
  • Page 67 TMP High Performance Vector Control Inverter User Manual Dec-to-stop mode 2 After the inverter receives stop command, it lowers its output frequency and decelerates to stop according to the preset Dec time. During Dec process, when output frequency is equal to the frequency set by P1.06, the inverter starts DC braking according to the DC braking time and voltage defined by P1.07 and P1.08.
  • Page 68 TMP High Performance Vector Control Inverter User Manual Output frequency Fmax Running time Fig. 6-5 linear Acc/Dec S curve mode In Acc/Dec process, the relationship between output frequency and Acc/Dec time is nonlinear. The output frequency increases or decreases according to the S curve shown in Fig.

  • Page 69: P2 Auxiliary Function Parameters 2

    TMP High Performance Vector Control Inverter User Manual 2. In Acc/Dec Process, the parameters of S curve are set in symmetry. P1.12 Restart after power failure Setting range: 0, 1 0: Disabled; 1: Enabled; Function of restarting after power failure is enabled when the power supply recovers.
  • Page 70 TMP High Performance Vector Control Inverter User Manual P2.04 ACC time4 Setting arrange:0.1~3600s P2.05 ACC time4 Setting arrange:0.1~3600s Four Acc/Dec times are defined as following: Phases of Acc/Dec time Terminal state As shown in the table above, in normal operation condition, Acc/Dec time 1 is the default setting (both terminals X4, X5 are OFF, and Acc/Dec time 1 and 2 are defined by terminal X4 and X5 respectively).
  • Page 71 TMP High Performance Vector Control Inverter User Manual Multi-frequency/speed is set in P2.09~P2.23, which can be used in multi-speed running and programming state. There are 15 multi-frequency operation modes, which can be selected through control terminals. Assumption: “1 (ON)” means that control terminal is connected; “0 (OFF)”...
  • Page 72 TMP High Performance Vector Control Inverter User Manual Output frequency Jump frequency Jump range Jump range Jump frequency 2 Jump range Jump frequency 1 Frequency setup signal Fig. 6-8 Jump frequency and its range p2.28 FWD/REV dead time Setting range: 0.1~3600s FWD/REV dead time: the waiting and holding time before the motor changes its rotating direction after the inverter's output frequency is decreased to zero.
  • Page 73 This function is mainly used to improve system performance, and reduce noise and vibration. Since TMP series adopts IGBT as power devices, carrier frequency can be higher. Increasing carrier frequency can bring following benefits: better current waveform, lower noise, which is especially suitable for applications that need low noise.

  • Page 74: P3 Motor Parameters

    TMP High Performance Vector Control Inverter User Manual AI1 Input voltage VS-b VS-a Output Vmin frequency Fmin Fmax Operating frequency Setting frequency fa: Zero frequency threshold fb: fa + Zero frequency hysteresis Fig. 6-10 Zero Frequency Hysteresis P2.33 Droop control Setting range:0.00~10.00Hz When several inverter drives one load, the load of indivial inverter is different due to speed difference.

  • Page 75: P4 Dedicatd Function For V/F Control

    TMP High Performance Vector Control Inverter User Manual 1:static auto tuning If the load can not be unconnected from motor, user can adopt static auto tuning. First set F3.05 to 1, after confirmation, then press the RUN key on the Keypad, inverter will perform static auto-tuning functions.
  • Page 76 P4.01 Base voltage Setting range: 0~440V P4.02 Base frequency Setting range: 10.00~ 400.0Hz Basic V/F characteristic of TMP series is shown in Fig. 6-12. Base Frequency F is the BASE output frequency corresponding to the rated output voltage U . Its range is 10 to 400Hz.

  • Page 77: P5 Vector Control Funtion

    TMP High Performance Vector Control Inverter User Manual BASE Fig. 6-13 Torque boost Note: Generally, factory setting (2%) can satisfy most applications. If over-current fault occurs during startup, please increase this parameter from zero gradually until it meets requirement. Pay attention that large torque boost could damage equipment.
  • Page 78 TMP High Performance Vector Control Inverter User Manual Frequency Speed error Given torque current instruction Actual speed Torque limit (P5.07,P5.08) Fig. 6-14 Simplified block diagram of ASR If the integral time is set to 0 (P5.01=0, P5.03=0), which means integral function is disabled, and the speed loop is simply a proportion regulator.
  • Page 79 TMP High Performance Vector Control Inverter User Manual Note: a. With improper PI parameters, after accelerating to high speed, over-voltage during Dec process may occur (Without external braking resistor or unit), which is caused by regenerative braking after speed overshoot. To avoid this fault, user can tune PI parameters. b.
  • Page 80 TMP High Performance Vector Control Inverter User Manual P5.06 Torque control Setting range:0, 1 This function is reserved. P5.07 Driving torque Setting range:0.0~200.0% (motor’s rated current) lilmit P5.08 Braking torque Setting range:0.0~200.0%(motor’s rated current) limit Torque limiting is used to limit output torque current of speed regulator'.

  • Page 81: P6 I/O I/O Output Terminal

    TMP High Performance Vector Control Inverter User Manual P6 I/O I/O output terminal FWD/REV running Setting range: 0~3 P6.00 Two-line operation mode 1 0: Running command Stop Stop Fig. 6-17 Two-line control mode 1 In Fig. 6-17, terminal X1 is defined as running FWD, and X2 is defined as running REV.
  • Page 82 TMP High Performance Vector Control Inverter User Manual STOP i=3,4,5,6, Fig. 6-19 Three-wire operation mode 1 Three-wire operation mode X1(FWD) STOP X2(REV) i=3,4,5,6 Fig. 6-20 Three-wire operation mode 2 In Fig.6-19 and 8-20, X1 is defined as running FWD, X2 is defined as running REV, and K is used for selecting running direction;...
  • Page 83 TMP High Performance Vector Control Inverter User Manual P6.04 Selecting the function of control terminal X3 Setting range:0~30 P6.05 Selecting the function of control terminal X4 Setting range:0~30 P6.06 Selecting the function of control terminal X5 Setting range:0~30 P6.07 Selecting the function of control terminal X6 Setting range:0~30 P6.08 Selecting the function of control terminal X7 Setting range:0~30 Control terminals X1~X7 are programmable digital input terminals.
  • Page 84 TMP High Performance Vector Control Inverter User Manual Acc/Dec time 1 Counter reset signal Terminals for selecting Acc/Dec time 2 Normally open terminal for PID dormancy waking up inputting external fault switch between PID positive Normally close terminal for mode and negative mode inputting external fault Emergence stop Frequency increase...
  • Page 85 TMP High Performance Vector Control Inverter User Manual By combination of the ON/OFF state of Acc/Dec time terminals, user can select Acc/ Dec time 1~4, refer to parameter P0.16,P0.17 and P2.00~P2.05 for more details. If this function is not defined, Acc/Dec time 1 will be the default setting except in simple PLC operation mode.
  • Page 86 TMP High Performance Vector Control Inverter User Manual If this terminal is OFF, reference signal is decided by settings of panel potentiometer (P0.09=4 5 OR 6 ) If this terminal is ON, reference signal is decided by settings of VS2. 12.
  • Page 87 TMP High Performance Vector Control Inverter User Manual The control logic is shown in the Table below. F0.01 Terminal state Source of control command External terminals Keypad Keypad External terminals This function is enabled during running state. User should pay attention to the drive’s running status after switching.
  • Page 88 TMP High Performance Vector Control Inverter User Manual 26: Counter trig signal It is the input terminal of the drive’s internal counter. If the input signal of the terminal changes from ON to OFF, the counting value is increased by 1. 27: Counter reset signal This terminal is used to clear the inverter's internal counter, and is used in conjunction with Function 24 "Counter trig signal".
  • Page 89 TMP High Performance Vector Control Inverter User Manual arriving Frequency arriving signal Low voltage lockup signal Frequency detection threshold Overload pre-alarm Frequency detection threshold Drive failure signal High limit frequency arriving Zero speed running Low limit frequency arriving 程序运行阶段完成 Overload signal PG cable broken Over current stall Functions in the table above are described as following:...
  • Page 90 TMP High Performance Vector Control Inverter User Manual output frequency(Hz FDT level - FDT lag Time(S) Frequency detecting signal Time(S) Fig. 6-21 Frequency detection threshold 1 and 2 7:High limit frequency arriving When the drive’s output frequency reaches high limit frequency, the terminal outputs indication signal.
  • Page 91 TMP High Performance Vector Control Inverter User Manual 13: Preset counting value arriving Set up counting value of the drive’s internal counter. The drive inputs counting pulses via external terminals Xi (I=1~7), and the drive’s internal counter counts this signal. When the preset value arrives, Yi outputs an indication signal.
  • Page 92 TMP High Performance Vector Control Inverter User Manual According to PD.04~PD.06 overload pre-alarm setup, when the output current is higher than the setting value, the terminal outputs indication signal. 16 17: Drive failure signal When fault occurs, the terminal outputs indication signal 17 18: Zero speed running When the drive’s running frequency is zero, the terminal outputs indication signal.
  • Page 93 TMP High Performance Vector Control Inverter User Manual Output frequency Detection width Time Time Fig.6-24 FAR and FAR detection width P6.12 FDT1 level Setting range: 0.0~400.0Hz P6.13 FDT1 lag Setting range: 0.0~10.00Hz P6.14 FDT2 level Setting range: 0.0~400.0Hz P6.15 FDT2 lag Setting range: 0.0~10.00Hz If output frequency exceeds certain value, the terminal outputs indication signal, and this signal is called FDT level.

  • Page 94: P7 Analog Input Terminal Function

    TMP High Performance Vector Control Inverter User Manual This parameter defines positive or negative logic of terminals. Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Note: If bit 0 is set to 0, it means positive logic, and 1 for negative logic. Factory setting of all terminals are positive logic;...
  • Page 95 TMP High Performance Vector Control Inverter User Manual P7.07 Frequency corresponding to P7.06 0.00 ~ Maximum frequency P7.08 Maximum AI2 0.0-100.0% P7.09 Frequency corresponding to P7.09 0.00 ~ Maximum frequency Reference signal from external input (AI1, AI2) is filtered and amplified, and then its relationship with frequency setting is shown as curve 1 in Fig.

  • Page 96: P8 Analog Output Terminal

    TMP High Performance Vector Control Inverter User Manual output frequency Maximum value corresponding to the frequency (F7.04) Input signal Minimum value Maximum value (F7.01) (F7.03) Minimum value corresponding to the frequency(F7.02) Fig. 6-25 curve 1: relationship between reference and frequency setting Fig.
  • Page 97 TMP High Performance Vector Control Inverter User Manual P8.00/P8.01 Drive state Description Running 0~ highest running frequency/speed frequency/speed Frequency 0~ highest running frequency/speed setting/speed Output current 0~ 2×rated current Output voltage 0~+200% rated voltage Output torque -200%~+200% rated torque current PI reference 0~10V PI feedback...

  • Page 98: P9 Program Operating Parameters

    TMP High Performance Vector Control Inverter User Manual For example, connect AO1 with a voltage meter (range: 0~5V) to indicate operating frequency, and the range of operating frequency is 0~50Hz (Maximum frequency=50Hz), then F8.00=0(=frequency), F8.02=0(=0V), F8.03=0(0Hz), F8.04=50%(=5V), F8.05=100%(=50Hz). Fig. 6-28 Relationship between maximum/minimum AO1 and F8.00 P8.06 Minimum AO2 Setting range:0.00~100.0% P8.07 Minimum value corresponding to F8.06...
  • Page 99 TMP High Performance Vector Control Inverter User Manual One cycle of programming operation is shown in Fig. 6-29, f1~f7 and T1~ T7 will be defined in the following function codes. Fig. 6-29 Programming operation P9.00 Programming operation function Setting range:0, 1,2 Single cycle (Stop after a single cycle) Continuous cycle (Continue cycle operation according to setup phase parameters)
  • Page 100 TMP High Performance Vector Control Inverter User Manual P9.10 Stage timingT9 Setting range:0.0~3600.0 P9.11 Stage timingT10 Setting range:0.0~3600.0 P9.12 Stage timingT11 Setting range:0.0~3600.0 P9.13 Stage timingT12 Setting range:0.0~3600.0 P9.14 Stage timingT13 Setting range:0.0~3600.0 P9.15 Stage timingT14 Setting range:0.0~3600.0 P9.16 Stage timingT15 Setting range:0.0~3600.0 Parameters P9.02~P9.16 are used to set running time of each stage.

  • Page 101: Pa Pid Parameter

    TMP High Performance Vector Control Inverter User Manual P9.32 Record function Setting range:0~2 Record function disabled In programming operation state, if user press stop key, counter value of present program will not be recorded. Input running command again, program will run from the first stage. Record function enabled In programming operation state, program will pause when stop key is pressed.
  • Page 102 TMP High Performance Vector Control Inverter User Manual Acc/ Frequency Reference Feedback control characteristic Setting range:0、1 PA.00 PID 0: Positive characteristic The Motor speed is required to increases with the reference speed. 1: Negative characteristic The motor speed is required to decrease when the reference value increases. Reference selection Setting range:0、1、2、3 PA.01...
  • Page 103 TMP High Performance Vector Control Inverter User Manual be displayed accurately. Proportional gain Setting range:0.0~10.00 PA.08 Integration time Ti Setting range:0.00(no integration)~99.99s PA.09 Integration time Ti Setting range:0.00(no differentiation)~99.99s PA.10 Sample cycle T Setting range:0.00(do not specify T)~99.99s PA.11 Setup parameters of PID regulator Error limit (corresponding to close loop PA.12...

  • Page 104: Pb Traverse Function

    TMP High Performance Vector Control Inverter User Manual Delay time of sleeping Setting range:0.0~3600S PA.17 Sleeping frequency Setting range:0.0~400.0Hz PA.18 Delay time of waking Setting range:0.0~60S PA.19 Waking value Setting range:0.0~100%实际值 PA.20 For PID control, parameters PA.17~ PA.20 define delay time of sleeping, sleeping frequency, delay time of waking and waking value.
  • Page 105 TMP High Performance Vector Control Inverter User Manual Preset traverse frequency Setting range:0.00~400.0Hz Pb.01 Hold time of preset traverse frequency Setting range:0.0~3600s Pb.02 Pb.01 defines drive’s operating frequency before entering traverse operation. In auto mode, Pb.02 defines the hold time of preset traverse frequency before traverse operation.

  • Page 106: Pc Communication And Bus Control Function

    TMP High Performance Vector Control Inverter User Manual Fig. 6-31 Traverse operation PC Communication and Bus control function Baud rate selection Setting range:0~5 Pc.00 Select baud rate of serial communication 0:1200BPS 1:2400 BPS 2:4800 BPS 3:9600 BPS 4:19200 BPS 5:38400 BPS Pc.01 Data Format Setting range:0~8 Data format of serial communication protocol:...

  • Page 107: Pd Faults And Protection Parameters

    TMP High Performance Vector Control Inverter User Manual 0:The parameter is stored into EEROM in communication. l:The parameter is not stored into EEROM in communication. Pd Faults and protection parameters Motor overload protection mode Setting range:0,1,2 Pd.00 No protection Common motor protection Since cooling conditions of common motor deteriorates at low speed, please lower the motor’s thermal protection threshold at this time.
  • Page 108 TMP High Performance Vector Control Inverter User Manual PD.03. If the bus voltage exceeds the stall overvoltage point, the inverter will stop reducing its output frequency. When the detected bus voltage is lower than the point, the Dec running will be restored, as shown in Fig.6-32. DC Bus voltage Stall over voltage point time...
  • Page 109 TMP High Performance Vector Control Inverter User Manual rated output current ) Frequency decrease rate during Setting range:0.00-99.99Hz/S Pd.08 Action mode of auto current limiting Setting range:0、1、2 Pd.09 Auto current limiting function is used to limit the load current under the preset current (PD.07) in real time to avoid trip due to over-current.

  • Page 110: Pe Factory Reserved

    TMP High Performance Vector Control Inverter User Manual not be saved. When undervoltage occurs during running, fault relay acts and fault code will be saved. When undervoltage occurs during stop state, fault relay does not act, and fault code will not be saved. When undervoltage occurs in running or stopping state, fault relay acts and fault code will be saved.
  • Page 111 TMP High Performance Vector Control Inverter User Manual Running frequency Output current Output voltage Bus voltage Overload rate Preset line speed Running line speed Output torque PI reference 10: PI feedback 11: Analog input AI1 12: Analog input AI2 13: I/O status(0~511) 14: External counting value Inpt/output IO status correspond as blow:...
  • Page 112 TMP High Performance Vector Control Inverter User Manual 7: PI reference 8:PI feedback Line speed factor Setting range:0.1~100 PH.02 When line speed is displayed, line speed = Output frequency × Line speed factor PH.03 Reserved IPM heatsink temperature Setting range:0~100℃ PH.04 IPM heatsink temperature Setting range:0~100℃...

  • Page 113: Chapter 7 Fault Diagnosis And Troubleshooting

    TMP High Performance Vector Control Inverter User Manual Chapter 7 Fault diagnosis and troubleshooting 7.1 Fault query at fault If control power supply is normal at fault, the drive will be in fault displaying status all the times. At this time, user can enter parameter group PH to get related information about the failure, such as output frequency, frequency setting, output current, rotating direction, operating condition, and the 3 latest faults, which is shown in the table below.
  • Page 114 TMP High Performance Vector Control Inverter User Manual Failur Failure Failure description Potential causes Solutions e No code Acceleration time is too short Lengthen acceleration time Adjust V/F curve setting and Set V/F curve ratio too large torque boost Replace with inverter with proper Power level of inverter is small model Low grid voltage...
  • Page 115 TMP High Performance Vector Control Inverter User Manual Failur Failure Failure description Potential causes Solutions e No code protection when Choose appropriate energy Rotating inertial of load is too large deceleration braking components operation Deceleration time is too short Lengthen deceleration time Over voltage Motor short to ground Check motor wiring...
  • Page 116 TMP High Performance Vector Control Inverter User Manual Failur Failure Failure description Potential causes Solutions e No code Common motor maintains running Replace the common motor with under heavy load for a long period of variable frequency motor time improve the running frequency Motor overload protection time is set Increase the motor overload...
  • Page 117 TMP High Performance Vector Control Inverter User Manual Failur Failure Failure description Potential causes Solutions e No code feedback failure parameter group; . Check feedback signal. Analog close loop Feedback signal lost feedback failure Improper setting motor Re-set motor’s rated parameters;...

  • Page 118: Troubleshooting Procedures

    TMP High Performance Vector Control Inverter User Manual 7.3 Troubleshooting Procedures START Please shut down the power supply immediately to avoid further expansion of the fault Serious fault occurs, such as abnormal sound upon power up and no display Seek for technical help Identify the fault code per 4.4.4"...

  • Page 119: Chapter 8 Routine Repair And Maintenance

    TMP High Performance Vector Control Inverter User Manual Chapter 8 Routine Repair and Maintenance The application environment (such as temperature, humidity, dust and powder, wool, smoke and oscillation), burning and wearing of internal devices and other factors may increase the possibilities of inverter failure.

  • Page 120: Periodic Maintenance

    TMP High Performance Vector Control Inverter User Manual Item Inspection Contents Inspection Means Criteria Sound Listen There is no abnormal sound. Vibration Special test instrument There is no abnormal oscillation. 8.2 Periodic Maintenance It needs to perform periodic inspection on the inverter once every three to six months according to the application environment and work conditions.

  • Page 121: Insulation Test

    TMP High Performance Vector Control Inverter User Manual 8.4 Insulation Test Since the inverter has undergone insulation test upon its ex-factory, the user shall not perform such test as much as possible under general condition. If the test is unavoidable, please perform the test strictly according to the following procedures, or it may damage the inverter.

  • Page 122: Appendix A Communication Protocol

    TMP High Performance Vector Control Inverter User Manual Appendix A Communication Protocol 1.Application range Universal Variable Speed Drive connects with PLC or host computer via RS485 bus, which adopts single master and multi-slave network structure. 2. Physical description Interface: RS485 Bus, asynchronous, half-duplex Each segment on the network bus can have up to 32 stations.
  • Page 123 TMP High Performance Vector Control Inverter User Manual Run, Stop, Jog start, Jog stop, free run to stop, Dec to Stop, fault reset, etc. b. Operation monitor: Running frequency, frequency setting, output voltage, output current, close loop feedback, close loop reference, etc. c.
  • Page 124 TMP High Performance Vector Control Inverter User Manual =0,reverse bit2 =1,forward jog start =0,forward jog stop bit3 =1,reverse jog start =0,reverse jog stop bit4 0-》1,Fault reset command bit5 reserved bit6 =1,free stop command =0,no command bit7 =1,decrease stop command =0,no command BYTE8 reserved End byte A0H,one byte...
  • Page 125 TMP High Performance Vector Control Inverter User Manual bit1 =1,inverter fault =0,inverter no fault bit2 =1,inverter running =0,inverter stop bit3 =1,data valid =0,data invalid bit4 =1,RS485 frequency setting =0,loacl frequency setting BYTE8 is the error code End byte A0H,one byte Xor form BYTE1 to BYTE9 Xor check 3.2 Application note...
  • Page 126 TMP High Performance Vector Control Inverter User Manual of communication takes place. 4. MODBUS Protocol 4.1 Character format 1. ASCII Communication adopts hexadecimal system, and the valid ASCII characters are: “0”…“9” , “A”…“F”, which is expressed in hexadecimal format. Such as: ASCII character: ‘0’...
  • Page 127 TMP High Performance Vector Control Inverter User Manual 4.2 Function code Function code Description Read data Modify data Loop detection 2.Function code description (1)Read data Frame head and frame tail are used to ensure input time (without any information) larger than 10ms. Each time, reading data should be less than 30 bytes. Message format of master request: Slave Function...
  • Page 128 TMP High Performance Vector Control Inverter User Manual Message format of slave response: Slave Function Start address of Modified Redundancy address code data value check 1 byte (3) Loop detection The command is used to test whether communication between main control equipment (usually PC or PLC) and the drive is normal.
  • Page 129 TMP High Performance Vector Control Inverter User Manual Fram Slave Functio Data Modified Frame address n code address value tail head ‘0 ‘6 ‘:’ 4 3 2 1 4 3 2 1 ’ ’ Message format of slave response: Fram Slave Functio Data...
  • Page 130 TMP High Performance Vector Control Inverter User Manual ‘0’ ‘5’ ‘1’ ‘9’ ‘F’ ‘8’ ‘9’ ‘C’ RTU mode: Format of query message: Format of response message: Slave address Slave address Function code Function code Data address Data address Data quantity Data content (Word) Low byte CRC...
  • Page 131 TMP High Performance Vector Control Inverter User Manual ‘0’ ‘0’ ‘0’ ‘0’ ‘1’ ‘1’ Modified Modified value ‘7’ ‘7’ value ‘7’ ‘7’ ‘0’ ‘0’ ‘7’ ‘7’ ‘1’ ‘1’ RTU mode: Format of query message: Format of response message: Slave address Slave address Function code Function code...
  • Page 132 TMP High Performance Vector Control Inverter User Manual ‘0’ ‘0’ Function code Function code ‘8’ ‘8’ ‘0’ ‘0’ Sub-function Sub-function ‘0’ ‘0’ code code ‘0’ ‘0’ ‘0’ ‘0’ ‘1’ ‘1’ Data content Data content ‘2’ ‘2’ ‘A’ ‘A’ ‘B’ ‘B’ ‘3’...
  • Page 133 TMP High Performance Vector Control Inverter User Manual Bit1 =1, Drive failure =0, No drive failure Bit2 =1, Running state =0, Stopping state Bit3 =1, Modifying parameter valid =0, Modifying parameter invalid Bit4 =1, Frequency setting via RS485 =0, Local frequency setting Bit5 =1, RS485 running control =0, Local running control...
  • Page 134 TMP High Performance Vector Control Inverter User Manual Bit9—bit15 Reserved 3. Parameter address Addres Name Addres Name Addres Name 1000H Status word 1001H Errorcode 1002 H Control word Frequency Running Output 1003H 1004H 1005H setting frequency current Output Overload rate 1006H 1007H 1008H...
  • Page 135 TMP High Performance Vector Control Inverter User Manual Fault code: 01 Function code error: Function code is invalid. In the protocol, valid function codes are: 03H, 06H or 08H. 02 Invalid data address: Data address is invalid 03 Invalid data setting Data value is invalid.
  • Page 136 TMP High Performance Vector Control Inverter User Manual operation rule is shown as following: Step 1: Load a 16-bit register with FFFFH. Call this the CRC register; Step 2: Execute XOR operation with the first message command and the lower byte of 16-bit CRC register, and put the result in the CRC register;...

  • Page 137: Appendix B Control Mode Setting Process

    TMP High Performance Vector Control Inverter User Manual Appendix B Control Mode Setting Process  A inverter connected to a computer Appendix Fig.1 A inverter connected to a computer  Several inverters connected to a computer With shielded twisted pair GND 485+ 485- GND 485+ 485- GND 485+ 485-...

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