Redsun RSE800 User Manual

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RSE800 Vector Control AC Drive

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Page 1 RSE800 Vector Control AC Drive Preface...
Page 2 Preface Preface Thank you for purchasing RSE800 Vector Control AC Drive developed by Red Sun Electric LTD. The RSE800 series AC drive is a general-purpose high-performance vector control AC drive, which is widely used for simple fan and pump driving, and automatic controlling in specific industry equipment of Textile, Stone sawing machine, Air compressor, Spindle servo drive, Crane, Veneer peeling machine, line cutting machine, oilfields and wire drawing machine.
Page 3 RSE800 Vector Control AC Drive Introduction Introduction Notes: All the examples below are base on factory setting. Example 1: Start/stop the AC drive and set frequency by Keypad. Operating steps: 1.1) Configure the following parameters according to the motor nameplate and actual requirements.
Page 4 RSE800 Vector Control AC Drive Introduction 2.3) Configure the following parameters according to the motor nameplate and actual requirements. Function Function Name Unit Name Unit Code Code b0.04 Acceleration time 1 b0.08 Rated motor current b0.05 Deceleration time 1 b0.09 Rated motor frequency b0.06...
Page 5 RSE800 Vector Control AC Drive Introduction 3.4) Set the running frequency of the AC drive (salve address is 1) to 25 Hz by writing the data to the register 0x6400 with the communication function code 0x06. Frame Address Function Code...
Page 6 RSE800 Vector Control AC Drive Introduction Induction motor flow chart by first using...
Page 7: Table Of Contents
1.2 General Precautions ......................... 6 Chapter 2 Product Information ......................10 2.1 RSE800 Technical Specifications ..................10 2.3 RSE800 Nameplate ........................ 14 2.4 RSE800 Model and Technical Parameters ................14 2.4.1 General Series ......................14 2.5 RSE800 Appearance and Dimensions ................15 2.5.1 General Series ......................15 2.5.1.1 Wall-mounted Type Appearance ................15...
Page 8 RSE800 Vector Control AC Drive Index C0 Digital Input ......................... 64 C1 Digital Output ........................66 C2 Analog Input ........................68 C3 Analog Output ........................69 C4 Pulse Input/Output ......................70 C5 Virtual Digital Input/Output ....................70 d0 Motor Control ........................71 d1 Motor Parameters ........................74...
Page 9 RSE800 Vector Control AC Drive Index Group E4: Acc & Dec time ....................... 189 Group E5: PID ..........................191 Group E6: Multi-Pump Control ....................206 Group E7: Swing Frequency ....................215 Group E8: Droop Control ......................219 Group E9: Power Loss Ride Through ..................220 Group EA: External Brake .......................
Page 10: Chapter 1 Safety Information And Precautions
RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions Chapter 1 Safety Information and Precautions Safety definition: In this user manual, the notices are graded based on the degree of danger: DANGER indicates that failure to comply with the notice will result in severe personal injury or even death.
Page 11 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions During installation DANGER  Install the equipment on incombustible objects such as metal and keep it away from combustible materials.  Do not install the equipment in the environment with combustible gas. Failure to comply will result in a fire.
Page 12 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions WARNING  Do not drop wire end or screw into the AC drive. Failure to comply will result in the damage to the AC drive.  Install the AC drive in places free of vibration and direct sunlight.
Page 13 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions  The wiring is secured.  Failure to comply will result in the damage to the AC drive.  Do not perform the voltage resistance test on any part of the AC drive because such test has been done in the factory.
Page 14 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions or maintenance the AC drive can be performed when the DC bus voltage (between P+ and P-) is lower than 36V. Failure to comply will result in personal injury due to the residual voltage in the capacitor.
Page 15: General Precautions
RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions 1.2 General Precautions  Ground Connection The incorrect earthing may cause personal injury, death or equipment failure, and increase the electromagnetic interference. The correct earthing the AC drive, motor or other devices can guarantee the safety of the operator in any case and reduce the electromagnetic radiation and interference.
Page 16 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions be avoided by setting skip frequencies on the keypad.  The heat and noise of the motor The output of the AC drive is pulse width modulation (PWM) wave with certain harmonic frequencies, and therefore, the temperature rise of the motor, noise and vibration will be increase slightly compared with power frequency operation.
Page 17 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions The AC drive must not be used outside the allowable voltage range specified by the user manual. Otherwise, components inside the AC drive may be damaged. If required, the corresponding voltage step-up or step-down device should be chosen.
Page 18 RSE800 Vector Control AC Drive Chapter 1 Safety Information and Precautions result and protection performance will be affected. 4. The AC drive may alarm or even be damaged when short-circuit exists on cables or inside the motor. Therefore, perform insulation short-circuit test when the motor and cables are newly installed or during routine maintenance.
Page 19: Chapter 2 Product Information
RSE800 Vector Control AC Drive Chapter 2 Product Information Chapter 2 Product Information 2.1 RSE800 Technical Specifications Table 2- 1 Technical Specifications Item Specifications Single-phase: 220V; Rated Input Three-phase: 220V/380V/480V; Frequency: 50/60Hz Voltage fluctuation: -15%～10%; Input voltage range Imbalance factor: less than 3%;...
Page 20 RSE800 Vector Control AC Drive Chapter 2 Product Information Item Specifications The delay time of The user can set the delay time for digital input terminals, digital terminals output terminals and relays. The time range is 0.0s to 3000.0s. Control mode: keypad, terminals and serial communication.
Page 21 RSE800 Vector Control AC Drive Chapter 2 Product Information terminals. Item Specifications Input and output phase loss protection, under voltage protection, Protection over voltage protection, over current protection, over heat Common types function protection, over load protection, short-circuit protection, module fault, external fault, self-defining fault.
Page 22 1) Designation only has the main specification of the AC drive. 2) As for the configuration information of the brake unit and DC reactor, please refer to Sector 2.4 ‘RSE800 Model and technical parameters’. 3) As for the construction size, please refer to Sector 2.5 ‘RSE800 appearance and dimensions.
Page 23: Rse800 Nameplate
RSE800 Vector Control AC Drive Chapter 2 Product Information 2.3 RSE800 Nameplate Figure 2- 2 Nameplate 2.4 RSE800 Model and Technical Parameters 2.4.1 General Series Table 2- 2 RSE800-4T/5T class model and technical parameters Power Output AC drive model Input current capacity...
Page 24: Rse800 Appearance And Dimensions
RSE800 Vector Control AC Drive Chapter 2 Product Information 4T,5T022G/030L 30/40 46.5/62 45/60 4T,5T030G/037L 40/57 62/78 60/76 4T,5T037G/045L 57/69 78/93 76/91 4T,5T045G/055L 69/85 93/114.5 91/112 4T,5T055G/075L 85/114 114.5/153.5 112/150 4T,5T075G/090L 114/134 153.5/180 150/176 4T,5T090G/110L 134/160 180/214 176/210 4T,5T110G/132L 160/192 214/256...
Page 25 RSE800 Vector Control AC Drive Chapter 2 Product Information 800-W01（sheet metal housing） 800-W02（sheet metal housing） 2.5.1.2 Wall-mounted Type Dimensional Drawing...
Page 26 RSE800 Vector Control AC Drive Chapter 2 Product Information 800-C01 800-C02...
Page 27 RSE800 Vector Control AC Drive Chapter 2 Product Information 800-C03 Table 2- 3 RSE800 series AC drive dimensions Physical dimension(mm) Installation dimension (mm) AC drive model Dimension Appearance Aperture RSE800- drawing Three phase 380/480V 4T,5T0R7G/1R5L Φ5 4T,5T1R5G/2R2L 4T,5T2R2G/3R7L 4T,5T3R7G/5R5L Φ5...
Page 28 RSE800 Vector Control AC Drive Chapter 2 Product Information 4T,5T185G/200L 4T,5T200G/220L Φ9 4T,5T220G/250L 4T,5T250G/280L 4T,5T280G/315L Φ12 800-C02 4T,5T315G/355L 4T,5T355G/400L 1000 Φ12 4T,5T400G/450L 4T,5T185G/200L 800-W02 4T,5T200G/220L 1180 1137 4T,5T220G/250L (wall 4T,5T250G/280L mounted 800-C03 4T,5T280G/315L 1270 1230 type+ 4T,5T315G/355L foundation) 4T,5T355G/400L 1400...
Page 29: Rse800 Keypad Physical Dimensions
RSE800 Vector Control AC Drive Chapter 2 Product Information 2.6 RSE800 Keypad Physical Dimensions 2.6.1 Keypad A（LED） Model: KEYA. Pure LED display, four bit. The physical appearance and dimensions are shown in the following figure. Figure 2- 3 KEYA 2.6.2 Keypad A Foundation The foundation of keypad A is used together with keypad A for sheet metal housing or wall-mounting installation.
Page 30: Keypad B Foundation
RSE800 Vector Control AC Drive Chapter 2 Product Information Figure 2- 5 KEYB Remark： LED keypad built-in all of RSE800 AC drives 2.6.4 Keypad B Foundation The foundation of keypad B is used together with keypad B for sheet metal housing or wall-mounting installation.
Page 31: Dust Excluding Plate A
RSE800 Vector Control AC Drive Chapter 2 Product Information 2.6.6 Dust Excluding Plate A Used for the AC drive of W01 type appearance. Standard configuration is only one plate. Optional for the requirements of both sides. The physical appearance and dimensions are shown in the following figure.
Page 32 RSE800 Vector Control AC Drive Chapter 2 Product Information power of the AC drive. Fans and water pumps: the requirement for overload is not strict. Because the torque of the load is proportional to the square of the speed, the load is light when the speed is low (Here, roots blower is not included);...
Page 33: Recommendation Of Brake Resistance Selection
RSE800 Vector Control AC Drive Chapter 2 Product Information 2.8 Recommendation of Brake Resistance Selection Table 2- 4 Brake resistance selection table of RSE800 series AC drive voltage Recommended Recommended Brake Unit &power classes power（kW） resistance（Ω） Single phase 220V input 0.15...
Page 34 RSE800 Vector Control AC Drive Chapter 2 Product Information 5T7R5G/011L ≥ 75 5T011G/015L ≥ 51 5T015G/018L ≥ 39 5T018G/022L ≥ 36 5T022G/030L ≥ 29 5T030G/037L ≥ 20 5T037G/045L ≥ 18 External (Optional) 60A 5T045G/055L 5T055G/075L ≥ 12 External (Optional) 80A 5T075G/090L ≥...
Page 35 RSE800 Vector Control AC Drive Chapter 2 Product Information considering actual conditions, the derating is 70 percent. The formula is 0.7×Pr=Pb×D. Pr refers to the power of the braking resistor. D refers to the braking frequency (percentage of the regenerative process to the whole process),the selection of the braking frequency can be as follows based on the experience: Elevator load is 20% to 30%;...
Page 36: Chapter 3 Mechanical And Electrical Installation
≥100mm Guide plate Single unit mode Up and down mode Figure 3- 1 RSE800 installation diagram Table 3- 1 The dimension size of the installation clearance Installation size（mm） AC drive power class （kW）...
Page 37: Removal And Installation Of The Keypad And Cover
RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 3.1.3 Removal and Installation of the Keypad and Cover 3.1.3.1 Keypad A Removal and Installation Removal: As shown on the following left figure, please press down the buckle refer to the direction of Arrow 1.Then uplift the keypad refer to the direction of Arrow 2.
Page 38 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 3.1.3.3 The Cover Removal and Installation of W01~02 Type Appearance Remarks: Keypad A must be removed first, and installed after the installation of the wiring and cover is completed.
Page 39 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation according to the direction of the arrow 2, tighten the two mounting screws according to the arrow 3. As a result, the installation of the cover is complete. Figure 3- 5 Cover removal & installation of the wall-mounted sheet metal housing AC drive...
Page 40 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 3.1.3.5 The Door Open and Close of W05~06 Type Appearance Open: As shown on the following left figure. After unlock the key, press down the button of the door key according to the shown position of the arrow 1.
Page 41: Electrical Installation
RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 3.2 Electrical Installation Power supply Breaker Contactor Input AC reactor Input noise filter Brake unit AC drive Brake resistance Earthing Output noise filter Output AC reactor Three-phase asynchronous motor...
Page 42: Instructions Of Peripheral Electrical Components
RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 3.2.1 Instructions of Peripheral Electrical Components Table 3- 2 Instructions of peripheral electrical components of RSE800 AC drive Installation Name Function Description Position The front end of Breaker The power system can be protected when the short circuit happens.
Page 43 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation Table 3- 3 Recommended peripheral electrical parts selection guidance of the RSE800 series AC drive Breaker Input Output Ground Control AC drive voltage Contactor MCCB wire wire wire wire &...
Page 44 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 5T055G/075L 5T075G/090L ≥ 25 5T090G/110L ≥ 35 5T110G/132L ≥ 60 5T132G/160L ≥ 75 5T160G/185L ≥ 95...
Page 45: Terminals Wiring Diagram Of The Ac Drive
Chapter 3 Mechanical and Electrical Installation 3.2.3 Terminals Wiring Diagram of the AC drive RSE800 series Figure 3- 8 The wiring diagram of RSE800 Vector Control AC drive Remarks: ○ 1) Terminal ‘◎’ represents terminals of the main circuit and ‘...
Page 46: Power Terminals Of The Main Circuit
RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation 3.2.4 Power Terminals of the Main Circuit Danger When wiring, ensure that the power switch is off. Otherwise, you may get electric shock.  The wiring personnel should be one professional. Otherwise, the equipment or personal ...
Page 47 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation Figure 3-12 Figure 3-13 RSE800-4T（5T）030G/037L RSE800-4T（5T）037G/045L~045G/055L Figure 3-14 Figure 3-15 RSE800-4T（5T）055G/075L~110G/132L RSE800-4T（5T）132G/160L~160G/185L Figure 3-16 RSE800-4T（5T）185G/220L~400G/450L Table 3- 4 Main circuit terminals instruction of the AC drive Terminal Sign Name...
Page 48 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation Remarks: A. Input power supply R,S,T Connect R,S,T to the input sides of the AC drive. The phase sequence is not needed. B. P+,P- terminals of the DC bus Terminal (+) and (-) of the DC bus have residual voltage after the power is switched off.
Page 49: Control Terminals And Wiring Description
RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation F. Earthing terminals Connect to the ground reliably. The resistance of the earthing line should be less than 0.1Ω. Otherwise, it may result in the malfunction of the device or even the damage to the device.
Page 50 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation RSE800 Figure 3- 18 Terminal arrangement of the control board Noted： AI1、 AO1 jumper is‘V’ （ voltage）， AI2 jumper is‘mA’ （ current） . 485 balance resistor jumper in the off position...
Page 51 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation Function Description of the Terminals on Control Board Table 3- 5 Function description of the terminals on control board Type Sign Name Function Description +10V 10V/30mA,usually is used for the power supply of 10V Reference Power Supply the analog signal.
Page 52 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation high-speed pulse (0～100KHz) output. TB1 （ ~TA1） T1 normally close terminal 1) TA1 is used for the common port the relay T1 T1 normally open terminal and TA2 is used for the common one of the （~TA1）...
Page 53 RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation Wiring Description of the Terminals on Control Board Wiring description of the analog input terminals The shielded cable is needed cause weak analog voltage signal is easily interfered. Usually, the length of the cable should be less than 20 meters. For occasions that some analog signals suffer severe interference, filter capacitors or ferrite magnetic core should be installed at the analog signal source.
Page 54: (Ii)The Connection Mode Of Source
RSE800 Vector Control AC Drive Chapter 3 Mechanical and Electrical Installation The stem nodes connection mode of common cathode Figure 3- 21 (II)The connection mode of source The connection mode of source Figure 3- 22...
Page 55: Chapter 4 Operation, Display And Application
RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application Chapter 4 Operation, Display and Application 4.1 Keypad Interface Figure 4- 1 LED Keypad (Keypad A) Figure 4- 2 LED and LCD display Keypad (Keypad B)
Page 56: Keypad Indicators
AC drive being alarm or fault state ‘*’ Note: Mark means for LED keypad (Keypad A) only. 4.3 Function of the Keypad Key Table 4- 2 Function of the Keypad Key on RSE800 series AC drive Name Function Programming/ 1) Enter level 1 menu.
Page 57: Keypad Display
RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application 4.4 Keypad Display LED screen can only display 4 digits. If the parameter value is more than 4 digits, the display method is shown in the table below. Note: If the parameter can be modified, each digit can be switched by SHIFT key.
Page 58 RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application Press ENTER key the move the cursor the second line, press SHIFT key to select the  second monitor parameter.
Page 59: Menu Introduction
RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application 4.4 Menu Introduction Three level menu: Level 1 : like —b2—, function code group, the group name will display on the LCD screen. Level 2 : like b2.01, function code, the function code name will display on the LCD screen.
Page 60: Parameters Upload And Download
RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application Steps of select monitor parameters. Choose the parameters to be displayed.  Sum the value of every parameter bit  .Set the summation value to the related parameter. ...
Page 61: Password And Parameter Setting
RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application 4.7 Password and Parameter Setting The AC drive provides the user password protection function. When H0.00 is set to a non-zero value, the value is the user password. Set H0.00 to the same value for the 2 time in a row, and the password will be set successfully.
Page 62: User Defined Parameters
RSE800 Vector Control AC Drive Chapter 4 Operation, Display and Application 4.8 User Defined Parameters Please refer to the parameters description of group P0. 4.9 Non-basic Menu Display Two non-basic menu is determined by H0.05, as shown in the table below.
Page 63: Chapter 5 Parameter List Table
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Chapter 5 Parameter List Table The symbols in the parameter list table are described as follows: “”: The parameter cannot be modified when the AC drive is in the running state.
Page 64 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Debug Parameters...
Page 65: A0 Monitor
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Parameter List Table A0 Monitor Function Name Range Default Step Description Code A0.00 Running 0.00~b0.00 0.00 0.01Hz frequency A0.01 Setting frequency 0.00~b0.00 0.00 0.01Hz A0.02 DC bus voltage 0.0~3000.0 0.1V A0.03...
Page 66 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code A0.18 FI frequency 0.00~100.00 0.00 0.01kHz Display the X6/FI frequency A0.19 FO frequency 0.00~100.00 0.00 0.01kHz Display the Y2/FO high speed pulse output frequency A0.20...
Page 67 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code A0.33 Encoder -320.00~320.00 0.00 0.01Hz indicate the motor speed from detection speed Encoder detection A0.34 Z pulse counter 0~65535 A0.35 Resolver position 0~4095 A0.36...
Page 68: A1 Fault & Diagnostics
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code A0.59 Motor temperature 0.0~300.0 0.1℃ This value is from PT100/PT1000 optional card. A0.60 Inverter module temperature -40.0~125.0 0.1℃ A0.61 Rectifier module temperature -40.0~125.0 0.1℃...
Page 69 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code A1.01 Output frequency upon 0.00~b0.00 0.00 0.01Hz Same As A0.00 1st(latest) fault A1.02 Output current upon1st(latest) 0.00~655.35 0.00 0.01A Same As A0.04 fault A1.03...
Page 70: B0 Basic Parameters
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code A1.22 Accumulative running day upon 2nd 0~9999 1Day fault A1.23 Accumulative running hour upon 2nd 0.00~23.99 0.00 0.01h fault A1.24 3rd fault type...
Page 71: B1 Run & Stop Logic
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code b0.06 ① Motor rated power 0.1~999.9 Module 0.1kw dependent b0.07 ① Motor rated voltage 1~2000 Module dependent b0.08 ① Motor rated current 0.01~655.35 0.01A...
Page 72: B2 Frequency Source
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code b1.14 Stop DC brake waiting time 0.0~100.0 0.1Sec b1.15 Stop DC brake current 0~100 b1.16 Stop DC brake time 0.0~100.0 0.1Sec b1.17 Running mode when...
Page 73: C0 Digital Input
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table 1: AI1 3: AI3 5: PID 7: Multi-Reference Code Name Range Default Step Description b2.01 Preset Frequency 0.00~b0.00 50.00 0.01Hz b2.02 ① Auxiliary frequency source B Same As b2.00 b2.03...
Page 74 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table 8: External STOP terminal 1 17: Multi-reference terminal 2 24: Normally open (NO) input of 9: External STOP terminal 2 18: Multi-reference terminal 3 external fault Function Name Range Default...
Page 75: C1 Digital Output
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table C0.15 X2 delay time 0.0~3000.0 0.1Sec C0.16 X3 delay time 0.0~3000.0 0.1Sec Function Name Range Default Step Description Code C0.17 I/O command mode ① 0: Two-line mode 1 1: Two-line mode 2...
Page 76 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table 14: Warning output 27: Frequency 2 reached 45: Simple brake control (continue running) Function Name Range Default Step Description Code C1.02 Y2 function 0~45 C1.03 Y3 function 0~45 C1.04 T1 function 0~45 C1.05...
Page 77: C2 Analog Input
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table C2 Analog Input Function Name Range Default Step Description Code C2.00 AI1 filter time 0.00~10.00 0.10 0.01Sec C2.01 AI2 filter time 0.00~10.00 0.10 0.01Sec C2.02 AI3 filter time 0.00~10.00 0.10 0.01Sec...
Page 78: C3 Analog Output
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code C2.22 Setting for AI less than 000~111 minimum input 0: corresponding to minimum setting 1: 0.0% Unit's digit: AI1 Ten's digit: AI2 Hundred's digit: AI3...
Page 79: C4 Pulse Input/Output
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table C4 Pulse Input/Output Function Name Range Default Step Description Code C4.00 FI filter time 0.00~10.00 0.10 0.01Sec C4.01 FI minimum input 0.00~C4.03 0.00 0.01kHz C4.02 Corresponding setting of FI -100.0~100.0 0.1%...
Page 80: D0 Motor Control
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table VX input Function Name Range Default Step Description Code C5.09 ① VY1 function 0~45 Same As C1.01 C5.10 VY2 function 0~45 Same As C1.01 ① C5.11 VY3 function 0~45 Same As C1.01 ①...
Page 81 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table d0.07 Cut-off frequency of 0.00~b0.00 37.00 0.01Hz ① torque boost Function Name Range Default Step Description Code d0.08 V/f slip compensation gain 0.0~100.0 0.1% d0.09 V/F over-excitation gain 0~250 d0.10...
Page 82 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table d0.34 Energy saving coefficient 50.0~100.0 65.0 0.1% Voltage coefficient of the weak magnetic when output torque below 5%.Set too low may lead to motor stall.
Page 83: D1 Motor Parameters
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table d1 Motor Parameters Function Name Range Default Step Description Code d1.01 ① Motor stator Module Module 0.001ohm resistance dependent dependent d1.02 ① Motor rotor Module Module 0.001ohm resistance dependent dependent d1.03...
Page 84 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code d2.09 Upper torque limit Source of forward motoring 0: d2.10 2: AI2 4: X6/FI 6: MIN（AI1,AI2） 1: AI1 3: AI3 5: Communication 7: MAX（AI1,AI2）...
Page 85: D3 Torque Control
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table d3 Torque Control Function Name Range Default Step Description Code d3.00 ① Speed/Torque control 0: Speed Control selection 1: Torque Control d3.01 ① Torque reference source 0: d3.02+UP/DOWN 2: AI2 4: X6/FI 6: MIN（AI1,AI2）...
Page 86: D5 Motor 2 Parameters
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code d3.13 Reserved d3.14 Reserved d3.15 Torque acceleration 0.00~650.00 2.00 time d3.16 Torque deceleration 0.00~650.00 2.00 time d3.17 Reserved d3.18 Reserved d5 Motor 2 Parameters...
Page 87: D6 Motor 2 Speed Control
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code d5.14 ① Motor 2 weaken flux 0.000~1.000 1.000 0.001 Flux weakening coefficient 2 coefficient at 50% flux current d5.15 ① Motor 2 weaken flux 0.000~1.000...
Page 88 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code d6.11 Motor 2 Upper torque limit Source of reverse motoring 0: d6.12 2: AI2 4: X6/FI 6: MIN（AI1,AI2） 1: AI1 3: AI3 5: Communication 7: MAX（AI1,AI2）...
Page 89: E0 Jog
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table E0 JOG Function Name Range Default Step Description Code E0.00 JOG frequency 0.00~b0.00 5.00 0.01Hz E0.01 JOG acceleration time 0.1~6000.0 10.0 0.1Sec E0.02 JOG deceleration time 0.1~6000.0 10.0 0.1Sec E0.03...
Page 90: E3 Simple Plc
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table E3 Simple PLC Function Name Range Default Step Description Code E3.00 Simple PLC running mode 0: Stop after the AC drive running one cycle 2: Repeat after the AC drive running one...
Page 91: E4 Acc & Dec Time
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table E3.26 Same As E3.04 Acc/dec time of simple PLC reference 11 Function Name Range Default Step Description Code E3.27 0.0~6553.5 0.1Sec Running time of simple PLC reference 12 E3.28 Same As E3.04 Acc/dec time of simple PLC reference 12 E3.29...
Page 92 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table 0: Max frequency(b0.00) 1: Current setting frequency 2: 100Hz...
Page 93: E5 Pid
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table E5 PID Function Name Range Default Step Description Code E5.00 PID engineering unit ① 0:Percentage(%) 1:Pressure(MPa) 2:Centigrade(℃) 3:Kilowatt(kW) 4:Kilowatt hour(kWh) 5:Flow(m E5.01 PID engineering unit resolution 0: No decimal 1: One decimal...
Page 94 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code E5.25 Cut-off frequency of PID 0.00~b0.00 0.00 0.01Hz reverse rotation E5.26 PID deviation limit 0.0~100.0 0.00 0.1% Base on PID setting value E5.27 PID deviation limit delay time 0.0~320.0...
Page 95: E6 Multi-Pump Control
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table E6 Multi-Pump Control Function Name Range Default Step Description Code E6.00 ① Multi-pump control mode This series AC drive support multi pump control modes. Each of them is apply to different application area with specific configuration and operation logic.
Page 96: E7 Swing Frequency
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table E7 Swing Frequency Function Name Range Default Step Description Code E7.00 Swing frequency 0: reference to setting frequency setting mode 1: reference to max frequency E7.01 Swing frequency 0.0~100.0 0.1% amplitude E7.02...
Page 97: Ea External Brake
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table EA External Brake Function Name Range Default Step Description Code EA.00 ① External brake control enable 0: Inactive 1: active EA.01 ① External brake off frequency limit 0.00~10.00 2.50 0.01Hz EA.02...
Page 98 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code Eb.11 Any frequency reaching 0.00~b0.00 50.00 0.01Hz detection value 2 Eb.12 Any frequency reaching 0.0~100.0 0.1% detection amplitude 2 Eb.13 frequency detection 0.00~b0.00 50.00...
Page 99: F0 Protection
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table F0 Protection Function Name Range Default Step Description Code F0.00 Under voltage threshold Module 0.1V Module dependent dependent F0.01 ① Over voltage threshold Module 0.1V Module dependent dependent F0.02 Input phase loss protection...
Page 100 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Thousand's digit: Motor overload（same as unit's digit） Function Name Range Default Step Description Code F0.20 Fault protection action selection 2 0000~2222 0000 Unit's digit: motor underload 0: Coasting stop 2: Jump to 8% motor rated frequency, resume to 1: Stop by stop mode setting frequency when underload is inactive.
Page 101: F1 Auto Reset
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table F1 Auto Reset Code Name Range Default Step Description F1.00 Fault auto reset times 0~30 F1.01 Time interval of fault auto reset 0.1~100.0 0.1Sec F1.02 DO action during fault auto reset...
Page 102 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table 2: Display non factory setting parameters Code Name Range Default Step Description H0.06 Function code lock 0:Disabled 1:Enabled H0.07 Accumulative power 0~9999 on time lock password H0.08 0.001~9.999 0.300 0.001 Load speed display coefficient H0.09...
Page 103 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table lower bits H0.26 OTP version 0.00~99.99...
Page 104: H1 Ai/Ao Calibration
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table H1 AI/AO Calibration Function Name Range Default Step Description Code H1.00 AI1 actual voltage 1 0.500~4.000 Factory setting 0.001V H1.01 AI1 display voltage 1 0.500~4.000 Factory setting 0.001V H1.02 AI1 actual voltage 2 6.000~9.999...
Page 105 RSE800 Vector Control AC Drive Chapter 5 Parameter List Table time...
Page 106: L1 Point-Point Communication
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table L1 Point-point Communication Function Name Range Default Step Description Code L1.00 ① Master and slave selection 0: Master 1: Slave L1.01 Send data selection 0: Torque reference ① master 1: Running frequency...
Page 107: P0 User-Defined Parameters
RSE800 Vector Control AC Drive Chapter 5 Parameter List Table Function Name Range Default Step Description Code L2.10 Motor 2 Encoder pulse per revolution 1~65535 1024 ① L2.11 ① Motor 2 A/B phase sequence of ABC Same As L2.02 incremental Encoder L2.12...
Page 108: P1 Debug Parameters
Reserved for factory debug, user don't P1.00~ Debug parameter i 0~65535 change them unless receive guidance P1.15 (i=0,1,2,3,..,15) from factory engineers suggestions. P2 Factory Parameters Function Name Range Default Step Description Code P2.00 Factory password 0~9999 Remark：RSE800 series without AO2 output and X5 input...
Page 109: Chapter 6 Parameters Description
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Chapter 6 Parameters Description Group A0: Monitor Parameters in A0 group are used to facilitate the user to view the drive state, all of these parameters are read only, users can’t modify them. When using the keypad to view these parameters, the keypad will refresh these values.
Page 110 RSE800 Vector Control AC Drive Chapter 6 Parameters Description A0.08 Range: 0.00~b0.00 Default: 0.00 Main frequency A Unit: Hz It displays the setting of main frequency A. A0.09 Range: 0.00~b0.00 Default: 0.00 Auxiliary Unit: Hz frequency B It displays the setting of auxiliary frequency B.
Page 111 RSE800 Vector Control AC Drive Chapter 6 Parameters Description A0.12 Range: -10.00~10.00 Default: 0.00 AI2 voltage Unit: V It display AI2 voltage, the covert mode same as A0.11. A0.13 Range: -10.00~10.00 Default: 0.00 AI3 voltage Unit: V It display AI3 voltage, the covert mode same as A0.11.
Page 112 RSE800 Vector Control AC Drive Chapter 6 Parameters Description A0.20 Range: 0.0~100.0 Default: 0.0 PID setting Unit: %, the unit is equal to engineering unit. They display the PID setting value. System use the unit of percent in PID internal calculation. For better of display the PID setting value, system will convert the value to engineering unit value.
Page 113 RSE800 Vector Control AC Drive Chapter 6 Parameters Description is very fast, please select the X6/FI terminal. A0.26 Range: 0~65535 Default: 0 Actual length Unit: m It display value of A0.25 divide to E7.08, it is used for fixed length control.
Page 114: Point-To-Point
RSE800 Vector Control AC Drive Chapter 6 Parameters Description A0.34 Range: 0~65535 Default: 0 Phase z counting It displays the phase Z counting of the current ABZ or UVW encoder. The value increases or decreases by 1 every time the encoder rotates one revolution forwardly or reversely.
Page 115 RSE800 Vector Control AC Drive Chapter 6 Parameters Description minute. A0.53 Range: 0.0~6553.5 Default: 0.0 Running time Unit: Min It is used to display the current running time of the drive, the unit is 0.1 minute. A0.54 Range: 0~9999 Default: 0...
Page 116: Group A1: Fault & Diagnostic
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Rectifier module Unit: ℃ temperature It is used to display the rectifier bridge temperature. Group A1: Fault & Diagnostic A1.00 Range: 0~54 Default: 0 Latest fault type It display the fault type upon latest fault.
Page 117 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Motor under load Soft startup resistor overload Motor overheat Sleep status A1.01 Range: 0.00~b0.00 Default: 0.00 Output frequency Unit: Hz upon latest fault Same as A0.00 A1.02 Range: 0.00~655.35 Default: 0.00...
Page 118: Group B0: Basic Parameters
RSE800 Vector Control AC Drive Chapter 6 Parameters Description running day Total accumulative running time upon latest fault is A1.10+A1.11 upon latest fault A1.11 Range: 0.00~23.99 Default: 0.00 Accumulative Unit: h running hour Total accumulative running time upon latest fault is A1.10+A1.11 upon latest fault The parameters of A1.12~A1.23 are the penultimate fault record, the mean of these...
Page 119 RSE800 Vector Control AC Drive Chapter 6 Parameters Description frequency≥lower limit frequency. b0.04 Range: 0.1~6000.0 Default: Model dependent Acceleration Unit: Sec time 1 Acceleration time indicates the time required by the drive to accelerate from 0 Hz to E4.09, please see the T1 in the following figure.
Page 120 RSE800 Vector Control AC Drive Chapter 6 Parameters Description The default value of motor rated current matches with motor rated power. When you modified b0.06(motor rated power), motor rated current default value will be changed. b0.09 Range: 10.00~b0.00 Default: 50.00 ①...
Page 121 RSE800 Vector Control AC Drive Chapter 6 Parameters Description 3~13: Reserved Code Name Setting value when b0.12= 1 Setting value when b0.12= 2 b0.03 Lower limit frequency 20.00Hz 20.00Hz b0.11 Command source 1: I/O terminal 1: I/O terminal b1.20 Reverse prohibition...
Page 122: Group B1: Run & Stop Logic
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group b1: Run & Stop Logic b1.00 Range: 0~1 Default: 0 ① Acceleration It is used to set the frequency change mode during the drive start and /Deceleration stop process mode...
Page 123 RSE800 Vector Control AC Drive Chapter 6 Parameters Description b1.03 Range: 0.00~50.00 Default: 0.00 Startup Unit: Hz frequency Start frequency is the initial frequency of drive from stop to start. It not restricted by lower frequency limit. If setting frequency less than startup frequency, the drive will run with the frequency of zero.
Page 124 RSE800 Vector Control AC Drive Chapter 6 Parameters Description b1.06 Range: 0~2 Default: 0 ① Flying start mode To complete the rotational speed tracking process within the shortest time, select the proper mode in which the drive tracks the motor rotational speed.
Page 125 RSE800 Vector Control AC Drive Chapter 6 Parameters Description b1.12 Range: 0.0~100.0 Default: 0.0 ① Start DC brake Unit: Sec time This parameter specifies DC brake time when drive startup. If the startup DC braking time is 0, the drive starts directly without DC braking.
Page 126 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Output frequency after skipping Skip frequency 2 high limit Skip frequency 2 low limit Skip frequency 1 high limit Skip frequency 1 low limit Set frequency Figure 6- 6 Principle of the skip frequency b1.17...
Page 127: Startup Protection
RSE800 Vector Control AC Drive Chapter 6 Parameters Description b1.19 Range: 0.0~3000.0 Default: 0.0 Forward/Reverse Unit: s rotation It is used to set the time when the output is 0Hz at transition of the drive dead-zone time forward rotation and reverse rotation, as shown in the following figure.
Page 128 RSE800 Vector Control AC Drive Chapter 6 Parameters Description b1.23 Range: 0~100 Default: 100 Dynamic brake Unit: % use ratio The larger the value of this parameter is, the better the braking result will be. However, too larger value causes great fluctuation of the drive bus voltage during the braking process.
Page 129: Group B2: Frequency Source
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group b2: Frequency Source b2.00 ① Range: 0~8 Default: 0 Main frequency It is used to select the setting channel of the main frequency A. You can source A set the main frequency in the following 9 channels: 0: Digital setting b2.01+UP/DOWN...
Page 130 RSE800 Vector Control AC Drive Chapter 6 Parameters Description 7: Multi-reference In multi-reference mode, combinations of different DI terminal states correspond to different set frequencies. The AC drive supports a maximum of 16 speeds implemented by 16 state combinations of four DI terminals (allocated with functions 16 to 19) from E2.01 to E2.16.
Page 131 RSE800 Vector Control AC Drive Chapter 6 Parameters Description b2.05 Range: 00~34 Default: 00 Frequency Unit's digit: Frequency source selection source selection 0: Main frequency source A. 1: A and B operation The result of A and B operate as the aim frequency, the operate relationship determined by ten's digit of the parameter.
Page 132 RSE800 Vector Control AC Drive Chapter 6 Parameters Description b2.06 Range: 000~999 Default: 000 Binding It is used to bind the three running command sources with the nine command source frequency sources, facilitating to implement synchronous switchover. to frequency Unit's digit: Binding the frequency source together with Keypad...
Page 133 RSE800 Vector Control AC Drive Chapter 6 Parameters Description 2).Please confirm again after the operation of motor, otherwise it may cause personal and property losses.
Page 134: Group C0: Digital Input
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group C0: Digital Input C0.00 Range: 0.000~1.000 Default value: 0.010 X terminals filter Unit: Sec time X1~X10（X6/FI act as common terminal usage）sample filter time setting. Appropriate to adjustment the filter time can increase the terminal input signal ability of anti-interference, prevent the miss-operation;...
Page 135 RSE800 Vector Control AC Drive Chapter 6 Parameters Description When the command source is keypad(b0.11), and the configuration for this External STOP function is effective. The AC drive will stop according to the stop mode terminal 1 configuration. This is equal to keypad stop.
Page 136 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Setting Function Description Terminal 1 for Through the X terminal configuration of these two functions, combination of Acceleration up to 4 kinds of acceleration and deceleration time, as shown in the /deceleration following table.
Page 137 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Setting Function Description The configuration of this function can select the current load motor. When Motor 1/2 switchover the terminal is invalid, select the motor 1;When the terminal is valid, select the motor 2.
Page 138 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Setting Function Description Through the configuration of this function, can realize the switch over Speed control/torque speed control and torque control. Only the vector control support torque control switchover control. Torque control...
Page 139 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Setting Function Description Through the configuration of the pulse length count function, AC drive can calculate the actual length for fixed length control. The current length value length Count input can be saved when power off. When the frequency is high, you must use the X6/FI.
Page 140 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Note: 1. The priority of frequency source is Fire mode >JOG >Frequency bind >Force to >Force to PLC >Force to digit set >Multi speed >Configuration of main and auxiliary frequency source parameter configuration.
Page 141 RSE800 Vector Control AC Drive Chapter 6 Parameters Description X5 function Same as C0.01. C0.06 Range: 0~58 Default: 0 ① X6 function Same as C0.01. C0.07 ① Range: 0~58 Default: 0 X7 function Same as C0.01. C0.08 Range: 0~58 Default: 0 ①...
Page 142 RSE800 Vector Control AC Drive Chapter 6 Parameters Description time Delayed response time to set the X1 terminal of the input signal...
Page 143 RSE800 Vector Control AC Drive Chapter 6 Parameters Description C0.15 Range: 0.0~3000.0 Default: 0.0 X2 terminal Unit: Sec delay time Delayed response time to set the X2 terminal of the input signal C0.16 Range: 0.0~3000.0 Default: 0.0 X3 terminal Unit: Sec...
Page 144 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Example 1: Two lines 1. Terminal X1 controls forward run, and X2 controls reverse run. The parameters’ configuration show as following table. Table 6- 6 Two lines 1 parameters’ configuration Parameter Setting C0.17(Terminal command mode)
Page 145 RSE800 Vector Control AC Drive Chapter 6 Parameters Description The wiring is shown in the following figure. Among them: If K1 closed, K2 broken open the AC drive run forward, K2 closed the AC drive run reverse; If K1 broken open, the AC drive stop running. Both X1 and X2 are level effective.
Page 146 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Figure 6- 10 Three lines 1 Example 4: Three lines 2. X1 determines whether to run, X2 determines run direction,X3 determines run enable. The parameters’ configuration is shown as the table below.
Page 147 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Run direction Forward Reverse Figure 6- 11 Three lines 2...
Page 148: Group C1: Digital Output
RSE800 Vector Control AC Drive Chapter 6 Parameters Description C0.18 Range: 0~2 Default: 0 UP/DOWN 0: Frequency reference Regulation When b2.00(Frequency source A selection) or b2.02(Auxiliary chose frequency source B selection) is set to 0(digital setting b2.01 + UP/DOWN set), terminal UP/DOWN and keypad regulation will be superposed to b2.01, the superposition of the results will be the given...
Page 149 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Table 6- 10 Switch input and output function table Setting Function Description No output The output terminal is invalid, and not output signal. When the bus voltage is below the under voltage level, the terminal Under voltage output “ON”...
Page 150 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Setting Function Description When the A0.60(AC drive temperature) is greater than or equal to Module temperature Eb.27(Module temperature reaches the set value), the terminal output reached ON signal. When A0.59(The temperature of the motor) is greater than or equal to Motor Over heat F0.14(Motor overheat warning threshold), the terminal output ON...
Page 151 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Setting Function Description When the input voltage of AI1 is less than Eb.25(AI1 input voltage AI1 input limit exceeded lower limit), or greater than Eb.26(AI1 input voltage upper limit), the terminal output ON signal.
Page 152 RSE800 Vector Control AC Drive Chapter 6 Parameters Description T2 Function Defines the functions of rely T2, same as C1.01. C1.06 Range: 0~45 Default: 0 T3 Function Defines the functions of rely T3, same as C1.01. C1.07 Range: 0~45 Default: 0 T4 Function Defines the functions of rely T4, same as C1.01.
Page 153 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Internal state Actual terminal signal Delay Delay Delay Delay time time time time Figure 6- 12 digital output terminals output delay time diagram. C1.14 Range: 0.0~3000.0 Default: 0.0 Y2 output delay...
Page 154: Group C2: Analog Input
RSE800 Vector Control AC Drive Chapter 6 Parameters Description C1.22 Range: 0.0~600.0 Default: 0.0 Interval of Y1 Unit: Sec output active Define the digital output terminal Y1 output effective sate holdoff time.. state C1.23 Range: 0.0~600.0 Default: 0.0 Interval of Y2...
Page 155 RSE800 Vector Control AC Drive Chapter 6 Parameters Description analog input, but will weaken the sensitivity. Unfiltered signal Filtered signal C2.00 Figure 6- 14 figure of AI signal filter C2.01 Range: 0.00~10.00 Default: 0.10 AI2 filter time Unit: Sec Define the filter time of AI2 signal, to filter processing.
Page 156 RSE800 Vector Control AC Drive Chapter 6 Parameters Description maximal input AI curve 1 maximal input signal C2.07 Range: -100.0~100.0 Default: 100.0 Corresponding Unit: % setting of AI The relationship between AI curve 1 maximal input signal and the curve 1 maximal percentage of set value.
Page 157 RSE800 Vector Control AC Drive Chapter 6 Parameters Description The corresponding setting of AI curve 1 maximal input C2.07 = 100.0%  When AI1 = 4V, the output frequency of this time is: 50.00* （ 4.00/10.00） = 20.00Hz  Setting value(%) Setting value(%) Curve ½...
Page 158 RSE800 Vector Control AC Drive Chapter 6 Parameters Description corresponding setting C2.17 Range: 0.0~100.0 Default: 0.5 Jump amplitude Unit: % of AI1 input corresponding Jump amplitude of AI1 input corresponding setting setting C2.18 Range: -100.0~100.0 Default: 0.0 Jump point of AI2...
Page 159: Group C3: Analog Output
RSE800 Vector Control AC Drive Chapter 6 Parameters Description less than input. The Unit and Tens of this parameter is corresponding to AI1 and AI2 minimum input respectively. The definition of each value are as follows: 0: Corresponding to the minimum input setting; When the AI signal is lower than the minimum input, the corresponding setting is decided by the minimum input corresponding setting(C2.05,C2.09).
Page 160 RSE800 Vector Control AC Drive Chapter 6 Parameters Description AO2 function The parameter defined the AO2 function, as the table below. AO1 and AO2 can select 0~10V voltage mode or 0~20mA current mode by the terminal CJ3 and CJ4 which on control board.
Page 161 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Table 6- 11 Relation table of analog value and pulse output Value Function Range Setting frequency 0~Max frequency(b0.00) Running frequency 0~Max frequency(b0.00) 0~2 times motor rated current Output current Output voltage 0~1.2 times motor rated voltage...
Page 162 RSE800 Vector Control AC Drive Chapter 6 Parameters Description output C3.07 Range: 0.00~10.00 Default: 10.00 AO curve 1 Unit: V maximum output AO curve 1 maximal input signal. C3.08 Range: C3.06~100.0 Default: 100.0 Corresponding Unit: % setting of AO The relationship between AO curve 1 maximal input signal and the curve 1 percentage of set value.
Page 163: Group C4: Pulse Input/Output
RSE800 Vector Control AC Drive Chapter 6 Parameters Description setting of AO The relationship between AO curve 1 minimum input signal and the curve 2 minimum percentage of set value. output C3.11 Range: 0.00~10.00 Default: 10.00 AO curve 2 Unit: V maximum output Define AO curve 2 maximal output value.
Page 164 RSE800 Vector Control AC Drive Chapter 6 Parameters Description C4.02 Range: -100.0~100.0 Default: 0.0 Corresponding Unit: % setting of FI The percent of corresponding to pulse minimum input frequency. minimum input C4.03 Range: C4.01~100.00 Default: 50.00 FI maximum Unit: kHz input If the pulse input higher C4.03 then it will be limited by C4.03.
Page 165: Group C5 : Virtual Digital Input/Output
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group C5 Virtual Digital Input/Output Virtual terminals can be useful in some applications such as input terminal signal is determined by output terminal. User can connect the virtual outputs with virtual inputs without actual wires. The usage method is similar with actual terminal.
Page 166 RSE800 Vector Control AC Drive Chapter 6 Parameters Description C5.07 Range: C5.08~8.00 Default: 6.70 Unit: V ① AI high level This defines the threshold voltage that AI treated as high level should be threshold greater than. C5.08 Range: 1.00~C5.07 Default: 3.20 Unit: V ①...
Page 167: Group D0: Motor Control
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group d0: Motor Control d0.00 ① Range: 0 ~ 2 Default: 0 Motor control 0: V/f mode Constant Volt/Hertz proportion control. It is applicable to applications with low load requirements or applications where one AC drive operates multiple motors, such as fan and pump.
Page 168 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Table 6- 12 default carrier frequency and range Volt Grade Power Grade carrier frequency Range ≤ 2.2KW 1.0kHz - 12.0kHz Single-phase 220V 3.7~5.5KW 1.0kHz - 12.0kHz Three-phase 220V Three-phase 380V 7.5~15KW 1.0kHz - 10.0kHz...
Page 169 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d0.06 Range: 0 ~ 30% Default: Model dependent Torque boost 0: auto torque boost >0: fixed torque boost When this parameter is set to 0, output voltage shall be adjust automatically based on the changing of the load.
Page 170 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d0.12 Range: 30% ~ 200% Default: 150% Overcurrent stall It used to determine the point that overcurrent stall function is active. The protective based value is rated motor current. current Note: "d0.12 * the motor rated current" generally can not be greater than "d0.32 *the limited current value".
Page 171 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Table 6- 13 the default value and range of overvoltage stall protective voltage Volt Grade default Range 350 V 330V - 380V Single-phase 220V Three-phase 220V 350 V 330V - 380V...
Page 172 RSE800 Vector Control AC Drive Chapter 6 Parameters Description 7: V/f complete separation Output frequency and output voltage are independent. Output frequency is from frequency source, and output voltage is set by d0.21. This V/f curve can be used in applications such as induction heating, inverse power supply and torque motor control.
Page 173 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d0.23 Range: 0.0 ~ 100.0 Default: 100.0 ① Multi- point V/f Unit: % voltage 3 Multi-point V/f V3 When V/f curve selection (d0.16) is set to 1, output voltage characteristic is determined by the settings of d0.17 ~ d0.23.
Page 174 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d0.25 Range: 0 ~（b0.07） Default: 0 Voltage digital Unit: V setting for V/f Voltage digital setting for V/f separation. separation d0.26 Range: 0.0 ~ 1000.0 Default: 0.0 Voltage ramp Unit: Sec...
Page 175 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Set too low may lead to motor stall.
Page 176: Group D1: Motor Parameters
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group d1: Motor Parameters d1.01 Range: ① 0.001 ~ 65.535（drive power<=55kW） Default: Model dependent motor stator 0.0001 ~ 6.5535（drive power >55kW） resistance Unit: Ω asynchronous motor stator resistance. d1.02 Range: ①...
Page 177 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Note:  Parameters of d1.01~1.05 will be used when motor type is set as asynchronous motor.  Please edit parameters of d1.01~d1.05 if you got the parameters of asynchronous motor.  Parameters of d1.01~1.05 can be get from running No-load dynamic auto-tune.
Page 178: Group D2: Speed Control
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group d2: Speed Control d2.00 Range: 1 ~ 100 Default: 30 ASR proportional Speed control loop proportional gain (Kp1) in low speed situation. gain Kp1 d2.01 Range: 0.01 ~ 10.00 Default: 0.50...
Page 179 RSE800 Vector Control AC Drive Chapter 6 Parameters Description are obtained from the linear switchover between the two groups of controller parameters, as  shown in Fig6-D4. d2.00 d2.01 d2.02 d2.03 Frequency Frequency d2.04 d2.05 d2.04 d2.05 Figure 6- 22 Relationship between running frequencies and speed loop Kp & Ti Note: Improper controller parameter setting may cause overvoltage or over current trip.
Page 180 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d2.10 Range: 0.0 ~ 300.0 Default: 150.0 Preset upper Unit: % torque limit of When d2.09 is set to 0, this parameter is used as upper torque limit when forward motoring the motor is running forward in motoring mode.
Page 181 RSE800 Vector Control AC Drive Chapter 6 Parameters Description generating mode. More information, see d2.14.
Page 182 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d2.14 Range: 0.0 ~ 300.0 Default: 150.0 Preset upper Unit: % torque limit of When d2.13 is set to 0, this parameter is used as upper torque limit when forward the motor is running forward in generating mode. If the torque upper limit is...
Page 183: Optimization Mode
RSE800 Vector Control AC Drive Chapter 6 Parameters Description d2.17 Range: 0 ~ 60000 Default: 2000 Proportional gain of flux current Proportional gain of flux current loop. loop d2.18 Range: 0 ~ 60000 Default: 800 Integration time of flux current Integration time of flux current loop.
Page 184: Group D3 : Torque Control
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group d3 Torque Control d3.00 ① Range: 0 ~ 1 Default: 0 Speed/Torque It is used to select motor control mode in vector control. control selection 0: Speed Control 1: Torque Control...
Page 185 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d3.04 Range: 10 ~ 300.0 Default: 150 Rigidity Unit: % coefficient Adjust the flexibility and rigidity of the torque, adjust the small flexibility, and adjust the steel to a strong degree.
Page 186 RSE800 Vector Control AC Drive Chapter 6 Parameters Description minimum Digital setting of minimum frequency. frequency d3.10 Reserved d3.11 Reserved d3.12 Range: 0.0 ~ 100.0 Default: 0.0 Static torque Unit: % compensation To overcome the static friction, static torque compensation is helpful.
Page 187: Group D5: Motor 2 Parameters
RSE800 Vector Control AC Drive Chapter 6 Parameters Description d3.18 Reserved Group d5: Motor 2 Parameters The AC drive can store two groups of motor parameters. User can switch the desired motor to run with the related motor parameters. The defines and usage is the same as motor 1. More detail information, refer to b0, d1,d2.
Page 188 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Motor 2 rated Unit: RPM speed motor 2 rated speed d5.08 Range: ① 0.001 ~ 65.535（drive power <=55kW） Default: Model dependent Motor 2 rotor 0.0001 ~ 6.5535（drive power >55kW） resistance Unit: Ω...
Page 189: Group D6: Motor 2 Speed Control
RSE800 Vector Control AC Drive Chapter 6 Parameters Description d5.12 Range: 0.01 ~ motor rated current ① Default: Model dependent Motor 2 no-load （b0.08）（drive power <=55kW） current Unit: A asynchronous motor no-load 2 current. d5.13 Range: 0.000 ~ 1.000 Default: 0.400 ①...
Page 190 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d6.04 Range: Default: 5.00 Motor 2 Low 0.00 ~ switchover frequency2（d2.05） speed switchover Unit: Hz frequency switchover frequency1 d6.05 Range: Switchover Frequency 1 Default: 10.00 Motor 2 High （d2.04） ~ Max Frequency（b0.00）...
Page 191 RSE800 Vector Control AC Drive Chapter 6 Parameters Description d6.11 Range: 0 ~ 7 Default: 0 Motor 2 Upper 0: d2.10 2: AI2 4: X6/FI 6: MIN（AI1,AI2） torque limit 1: AI1 3: AI3 5: Communication 7: MAX（AI1,AI2） Source of This parameter allows user to select the desired source as upper torque to...
Page 192 RSE800 Vector Control AC Drive Chapter 6 Parameters Description corresponds to the motor rated torque.
Page 193: Group E0: Jog
RSE800 Vector Control AC Drive Chapter 6 Parameters Description d6.17 Range: 0 ~ 60000 Default: 2000 Motor 2 Proportional gain of flux current loop. Proportional gain of flux current loop d6.18 Range: 0 ~ 60000 Default: 800 Motor 2 Integration Integration time of flux current loop.
Page 194: Group E1: Skip Frequency
RSE800 Vector Control AC Drive Chapter 6 Parameters Description E0.03 Range: 0~1 Default: 0 JOG stop mode 0: Ramp stop 1: Coasting stop E0.04 Range: 0~1 Default: 0 JOG preferred When set E0.04 to 1,the AC drive will response the JOG command of current control source immediately even if in running state.
Page 195: Group E2: Multi-Reference
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E2: Multi-Reference The AC drive multi-reference has many functions. Besides multi-speed, it can be used as the setting source of the V/F separated voltage source and setting source of process PID.
Page 196: Group E3: Simple Plc
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E3: Simple PLC Simple PLC can complete simple combination of multi-reference. E3.00 Range: 0~2 Default: 0 Simple PLC Simple PLC can be either the frequency source or V/F separated voltage running mode source.
Page 197 RSE800 Vector Control AC Drive Chapter 6 Parameters Description PLC retentive upon stop indicates that the AC drive records the PLC running moment and running frequency upon stop and will continue running from the recorded moment after it starts up again. If the ten's digit is set to 0, the AC drive restarts the PLC process after it starts up again.
Page 198: Group E4: Acc & Dec Time
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E4: Acc & Dec time The AC drive provides a total of four groups of acceleration/deceleration time, that is the following three groups and the group defined by b0.04 and b0.05. Definitions of four groups are completely the same, see the descriptions of b0.04 and b0.05.You can switch over between the four...
Page 199 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Deceleration time E4.09...
Page 200: Group E5: Pid
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E5: PID E5.00 Range: 0~1 Default: 0 ① PID engineering This parameter determines the unit of PID regulator. unit 0: Percentage(%) 1: Pressure(MPa) The following parameters’ unit is determined by E5.00.
Page 201 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.03 equals to 0% in PID regulator, and E5.02 equals to 100%.That two points (E5.03,0.0%) and (E5.02,100.0%) determine a conversion line between the value with engineering unit and percentage, as shown in the following figure.
Page 202 RSE800 Vector Control AC Drive Chapter 6 Parameters Description 5.000(MPa) = 62.5% * (E5.02-E5.03) + E5.03...
Page 203 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.02 Range: E5.03~6553.5 Default: 100.0 Maximum setting Unit: % of PID The unit and resolution will be changed according to E5.00 and E5.01. engineering unit E5.02 corresponds to 0% in AC drive, and affects the following parameters: ...
Page 204 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Unfiltered signal Filtered signal E5.08 Figure 6- 29 PID feedback signal filtering E5.09 Range: 0.0~999.9 Default: 100.0 PID proportional Unit: % gain Kp1 It decides the regulating intensity of the PID regulator.
Page 205 RSE800 Vector Control AC Drive Chapter 6 Parameters Description dynamic performance. But it’s easily interfered.
Page 206 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.12 Range: 0.0~999.9 Default: 50.0 PID proportional Unit: % gain Kp2 Same with E5.09(PID proportional gain Kp1). E5.13 Range: 0.01~99.99 Default: 2.00 PID integral time Unit: Sec Same with E5.10(PID integral time Ti1).
Page 207 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.17 Range: E5.16~E5.02 Default: 80.0 PID parameter Unit: % switchover The unit and resolution will be changed according to E5.00 and E5.01. deviation 2 See the following figure. PID first group...
Page 208 RSE800 Vector Control AC Drive Chapter 6 Parameters Description See the following figure.
Page 209 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Table 6- 14 PID action direction selection E5.21 X terminal function Final PID (PID action direction) (Reverse PID action direction) action direction 0(Positive) Positive 0(Positive) Negative 1(Negative) Negative 1(Negative) Positive E5.22 Range: 0.0~100.0...
Page 210 RSE800 Vector Control AC Drive Chapter 6 Parameters Description See the following figure.
Page 211 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.27 Range: 0.0~320.0 Default: 0.0 PID deviation Unit: Sec limit delay time See the following figure. PID deviation PID deviation limit PID deviation Time limit E5.27 PID output Stable PID output...
Page 212 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.31 Range: 0.00~b0.00 Default: 5.00 Minimum Unit: Hz frequency of PID When the PID output frequency is smaller than E5.31,the AC drive will not feedback detect whether PID feedback is lost even if E5.30=1.
Page 213 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E5.36 Range: 0.0~200.0 Default: 0.0 Wake up level Unit/Range depends on E5.44.When in sleep mode, if the feedback is smaller than the value E5.36 set, and the lasting time exceeds E5.37,the AC drive will quit sleep mode.
Page 214 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Example 2: E5.38 = 0(Base on output frequency). feedback E5.37 E5.36 Output frequency E5.41 E5.40 AC drive Running Running operation staus Stop Figure 6- 34 Sleep base on output frequency E5.42 Range: 0.0~100.0...
Page 215: Group E6: Multi-Pump Control
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E6: Multi-Pump Control Key points: Multi-pump control logic can control no more than 4 pumps when working together  with PID regulator. AC drive can switch a pump to its output or power grid via a relay or Y ...
Page 216 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E6.00 Range: 0~4 Default: 0 ① Multi-pump This series AC drive support multi-pump control modes. control mode Each of them is apply to different application area with different configuration and operation logic: 0:Inactive The AC drive can only work at single pump control mode.
Page 217 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Three phase power grid drive Parameter Configuration Motor1# C1.04 Control (T1 function) Motor Motor Motor output Motor2# C1.05 220V single-phase power Control (T2 function) output Relay T1 Relay T2 Figure 6- 36 Frequency pump fixed wiring configuration...
Page 218: Number Of Motors
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Note: If necessary,please use Y terminals to control external relays in multi-pump configuration. Do not directly use Y terminals. E6.01 Range: 1~4 Default: 1 Number of Motor numbers of multi-pump control system.
Page 219 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Choose any of the following two connection mode for interlock circuit: 1） A contact of the manual on/off switch of each motor is wired to the interlock circuit. The logic will detect if a motor is unavailable and start the next available motor instead.
Page 220 RSE800 Vector Control AC Drive Chapter 6 Parameters Description with No.41 function “Motor 2# Control output”). The first auxiliary pump startup conditions: No auxiliary pump is running.  AC drive output frequency is higher than E6.10+1Hz,and the lasting  time exceeds E6.16.
Page 221 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Output frequency (Hz) E6.10 – E6.11 E6.11 - 1 E6.17 b0.03 First auxiliary pump Figure 6- 39 Schematic diagram of removing pump logic E6.12 Range: 0.00~b0.00 Default: 48.00 Add pump Unit: Hz...
Page 222 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E6.15 Range: 0.00~E6.14 Default: 25.00 Reduce pump Unit: Hz frequency 3 The frequency to remove the third auxiliary pump(controlled via a Y/T terminal with No.43 function “Motor 4# Control output”). The third auxiliary pump stop conditions: Three auxiliary pump are running.
Page 223 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Multi-pump control mode 2:  Pump adding logic The same with mode 1.  Pump removing logic The same with mode 1.  Auto change logic Suppose current auxiliary pump startup sequence is 2->3->4.
Page 224: Group E7: Swing Frequency
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Multi-pump control mode 4:  Pump adding logic The same with mode 3.  Pump removing logic The same with mode 3.  Auto change logic Suppose current auxiliary pump startup sequence is 1->2->3->4.
Page 225 RSE800 Vector Control AC Drive Chapter 6 Parameters Description +Dw Positive swing amplitude Jump frequency Output -Dw Negative swing amplitude Jw = Dw * E7.02 frequency (Hz) Set frequency Fset Swing cycle Triangular rising time Accelerate by Decelerate by acceleration time...
Page 226 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E7.00 Range: 0~1 Default: 0 Swing frequency 0: relative to setting frequency setting mode It is variable swing amplitude system. The swing amplitude varies with the central frequency (set frequency). Swing amplitude frequency Dw = current set frequency * E7.01 1: relative to max frequency It is fixed swing amplitude system.
Page 227 RSE800 Vector Control AC Drive Chapter 6 Parameters Description E7.06 Range: 1~E7.05 Default: 1000 Designated When the counting value reaches E7.06 (the designated counting value), count value the Y terminal allocated with function 21 (Designated count value reached) becomes ON. Then the counter continues to count until the set count value is reached.
Page 228: Group E8: Droop Control
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E8: Droop Control The drooping function enables speed drop as a function of load. It is used for balancing the workload allocation when multiple motors are used to drive the same load.
Page 229: Group E9: Power Loss Ride Through
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group E9: Power Loss Ride Through Upon power loss ride through or sudden voltage dip, the DC bus voltage of the AC drive reduces. This function enables the AC drive to compensate the DC bus voltage reduction with the load feedback energy by reducing the output frequency so as to keep the AC drive running continuously.
Page 230: Group Ea: External Brake
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group EA: External Brake EA.00 Range: 0~1 Default: 0 ① External brake 0: Inactive enable 1: Active See the description of Figure below. Output frequency EA.01 EA.05 EA.04 EA.06 EA.07 Output EA.03...
Page 231 RSE800 Vector Control AC Drive Chapter 6 Parameters Description EA.02 Range: 0.0~180.0 Default: 110.0 ① External brake Unit: % off current limit The output current needs to be higher than EA.02 when the AC drive begins to accelerate from the frequency of EA.01.
Page 232: Group Eb: Supervision
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group Eb: Supervision Eb.00 Range: 0~1 Default: 0 ① Timing function 0: Inactive 1: Active If the timing function is active, the AC drive begins to time after received a start commend. And the Y terminal allocated with function NO.32 ”Timing reached”...
Page 233 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Eb.06 Range: 0~9999 Default: 0 Accumulative Unit: Day running This parameter is with the use of Eb.07. time(day) The AC drive accumulative running time is made up of Eb.06 and Eb.07.
Page 234 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Eb.09 Range: 0.00~b0.00 Default: 50.00 Any frequency Unit: Hz reaching If the output frequency of the AC drive is within the positive and negative detection value 1 amplitudes of Eb.09, the Y terminal allocated with function No.26 “Frequency 1 reached”...
Page 235 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Eb.14 Range: 0.0~100.0 Default: 5.0 Frequency Unit: % detection This is a percentage of the hysteresis frequency to Eb.13. Hysteresis 1 See the parameter description of Eb.13. (FDT hysteresis1) Eb.15 Range: 0.00~b0.00 Default: 50.00...
Page 236 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Output current Eb.17 Zero current detection level Time Zero current detection signal Time Eb.18 Zero current detection delay time Figure 6- 48 Zero current detection diagram Eb.19 Range: 0.0~300.0 Default: 200.0...
Page 237 RSE800 Vector Control AC Drive Chapter 6 Parameters Description The any current detection function is shown in the following figure.
Page 238 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Eb.22 Range: 0.0~300.0 Default: 0.0 Any current Unit: % reaching 1 This is a relative value to b0.08(motor rated current). amplitude Please see the description of the following figure. Eb.23 Range: 0.0~300.0 Default: 100.0...
Page 239 RSE800 Vector Control AC Drive Chapter 6 Parameters Description “AC drive module temperature reached” becomes ON.
Page 240: Group F0: Protection
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Eb.28 Range: 0.00~b0.00 Default: 2.00 Simple brake Unit: Hz frequency In the process of stopping, Y/T terminal assigned with function ‘45: Simple brake control’ will be ON for the time Eb.29 set when the AC drive output frequency is lower than Eb.28.
Page 241 RSE800 Vector Control AC Drive Chapter 6 Parameters Description according to F0.19(Ten's digit). F0.04 Range: 0~1 Default: 0 Short-circuit to 0: Disable 1: Enable ground upon It is used to determine whether to check the motor is short-circuited to power-on ground at power-on of the drive.
Page 242 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Minimum allowed overload time F0.07 = 1.10 F0.07 = 1.00 F0.07 = 0.93 Overload 115% 125% 135% 145% 155% 165% 175% coefficient Figure 6- 32 the inverse time-lag curve F0.08 Range: 50~100...
Page 243 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Motor overheat Unit: ℃ protection If the motor temperature(A0.59) exceeds the value of motor overheat threshold protection threshold, the AC drive reports an alarm and performs protecting action according to F0.20(Ten's digit ).
Page 244 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Fault protection Unit's digit: Under load action selection 2 0: Coast to stop 1: Stop according to the stop mode 2: Continue to run at 8% of rated motor frequency and resume to the set...
Page 245 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Thousand's digit: Interlock warning during multi-pump operation mode Same as unit's digit in F0.19 F0.24 Range: 0~4 Default: 0 Frequency If a fault occurs during the running of the AC drive and the handling of selection for fault is set to "Continue to run", the AC drive displays “AL”+fault code and...
Page 246 RSE800 Vector Control AC Drive Chapter 6 Parameters Description More details please see the description of parameter F0.26.
Page 247: Group F1: Auto Reset
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group F1: Auto Reset AC drive will auto reset after passing the time of F1.01 when the fault happened. If set F1.00 to 0 then the auto reset function invalid. After the times of auto reset exceeds to F1.00, the AC drive will remain in the fault state. The user can press STOP/RST key or X terminal(function 23) to reset the fault and clear the accumulative time of auto reset.
Page 248: Group H0: System Parameters
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group H0: System Parameters H0.00 Range: 0000~9999 Default: 0000 User password If it is set to any non-zero number, the password protection function is enabled. After a password has been set and taken effect, you must enter the correct password in order to enter the menu.
Page 249 RSE800 Vector Control AC Drive Chapter 6 Parameters Description For example: Determine the parameters to be displayed as below:  H0.01(LED display running parameters 1) H0.02(LED display running parameters 2) Bit0: running freq(Hz) Bit0: FI input freq(kHz) Bit2: Dc-link voltage(V)
Page 250: Display Coefficient
RSE800 Vector Control AC Drive Chapter 6 Parameters Description If system set the lock password and the Accumulative power on time has reached then drive will display system fault(Er51), at this time, you should contact with distributor or technical service.
Page 251 RSE800 Vector Control AC Drive Chapter 6 Parameters Description temperature higher than 45 ℃, and stop if lower than 40 ℃.
Page 252 RSE800 Vector Control AC Drive Chapter 6 Parameters Description H0.12 Range: 0~3 Default: 2 Dead zone 0: No compensation compensation 1: Rectangle compensation mode selection 2: Trapezoid compensation 3: Trapezoid at Low frequency and rectangle at high frequency H0.13 Range: 1~2048 Default: 1024 ①...
Page 253 RSE800 Vector Control AC Drive Chapter 6 Parameters Description Filter frequency(Hz) H0.16 H0.15 Running frequency(Hz) H0.17 H0.18 Figure 6- 33 the relations between running frequency and filter frequency H0.19 Range: 0~11 Default: 0 ① Optional card Control board have a slot for optional card, when you to inset different selection board in the slot, you need to set proper value to H0.19.
Page 254: Group H1: Ai/Ao Calibration
RSE800 Vector Control AC Drive Chapter 6 Parameters Description H0.25 Range: 0~65535 Default: Factory setting Product series number lower Read only. bits H0.26 Range: 0.00~99.99 Default: Factory setting OTP version Read only. Group H1: AI/AO Calibration These parameters of H1.00~H1.11 are used to calibrate analog inputs, they have been calibrated upon delivery.
Page 255 RSE800 Vector Control AC Drive Chapter 6 Parameters Description H1.04 AI2 actual voltage 1 H1.08 AI3 actual voltage 1 H1.05 AI2 display voltage 1 H1.09 AI3 display voltage 1 H1.06 AI2 actual voltage 2 H1.10 AI3 actual voltage 2 H1.07 AI2 display voltage 2 H1.11...
Page 256: Group L0: Communication Setting
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group L0: Communication Setting L0.00 Range: 0~4 Default: 1 Baud rate Set the baud rate for RS485 communication. 0: 4800 bits/s 1: 9600 bits/s 2: 19200 bits/s 3: 38400 bits/s 4: 57600 bits/s L0.01...
Page 257: Group L1: Point-Point Communication
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group L1: Point-point Communication L1.00 ① Range: 0~1 Default: 1 Master and slave 0: Master selection Drive send data to other external device as master. 1: Slave Drive receive data from other external device as slave. The received data is valid only when the conditions listed below are satisfied.
Page 258: Group L2: Encoder Setting
RSE800 Vector Control AC Drive Chapter 6 Parameters Description Group L2: Encoder Setting If drive use motor 1 to do VC control then set the parameters of L2.00~L2.08; If drive use motor 2 to do VC control then set the parameters of L2.09~L2.17.
Page 259 RSE800 Vector Control AC Drive Chapter 6 Parameters Description L2.06 Range: 0.0~359.9 Default: 0.0 ① UVW Encoder Unit: deg angle offset The parameter is used to set the angle offset of UVW encoder. L2.07 Range: 1~65535 Default: 1 ① Poles of resolver The parameter is used to set the poles of resolver.
Page 260: Group P0: User-Defined Parameters
RSE800 Vector Control AC Drive Chapter 6 Parameters Description L2.14 Range: 0~1 Default: 0 ① Motor 2 UVW 0: Positive phase sequence 1: Negative of UVW Encoder L2.15 Range: 0.0~359.9 Default: 0.0 ① Motor 2 UVW Unit: deg Encoder angle The parameter is used to set the angle offset of UVW encoder for motor 2.
Page 261: Group P1: Debug Parameters
RSE800 Vector Control AC Drive Chapter 6 Parameters Description The User-defined Parameters of 1~14 same as the User-defined Parameter 0(P0.00), but they have different default value. Code Name Default Code Name Default P0.01 User-defined Parameter 1 A0.01 P0.08 User-defined Parameter 8 A0.08...
Page 262: Chapter 7 Fault Detection And Diagnostics
RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Chapter 7 Fault Detection and Diagnostics 7.1 Faults and Solutions If a fault or alarm happened, keypad will display the fault or alarm at once. Fault displays “Er”+fault code and the alarm displays “AL”+fault code. You can use the STOP/RST key or X terminal reset function to reset the fault or alarm.
Page 263 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Display Fault Name Possible Causes Solutions Software over Motor to ground is short circuit. Check motor wiring. Er05 voltage during Select the dynamic brake The inertia of the load is too large.
Page 264 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics speed too small. properly. Display Fault Name Possible Causes Solutions Motor to ground is short circuit. Check motor wiring. The acceleration time is too short. Increase the acceleration time.
Page 265 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Display Fault Name Possible Causes Solutions Clean the air filter or Replace The fan is blocked or damaged. the damaged fan. The ambient temperature is too Cool down environment.
Page 266 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Display Fault Name Possible Causes Solutions The load is too heavy. Reduce the load Check the motor and Motor is stalling. Er23 CBC fault mechanical condition. The selected drive power grade is Select drive power grade too small.
Page 267 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Display Fault Name Possible Causes Solutions Check the temperature sensor The cabling of the temperature cabling and eliminate the sensor becomes loose. cabling fault. Motor Er/AL27 overheat Lower the carrier frequency or The motor temperature is too high.
Page 268 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Display Fault Name Possible Causes Solutions Accumulative Clear the record through The accumulative power-on time Er/AL38 power-on the parameter initialization reaches the setting value. time reached function. Accumulative Clear the record through...
Page 269 RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics Display Fault Name Possible Causes Solutions The user-defined fault 1 signal is input via DI. User-defined Er/AL46 Reset the operation. fault 1 User-defined fault 1 signal is input via virtual I/O.
Page 270: Common Faults And Solutions
RSE800 Vector Control AC Drive Chapter 7 Fault Detection and Diagnostics 7.2 Common Faults and Solutions You may come across the following faults during the use of the drive. Refer to the following methods for simple fault analysis. There is no display at power-on: 1) Check whether the drive input power voltage is consistent with drive rated voltage.
Page 271: Chapter 8 Communication Protocol
RSE800 Vector Control AC Drive Chapter 8 Communication Protocol Chapter 8 Communication Protocol The AC drive provides RS485 communication interface, for the master-slave communication with international standard MODBUS-RTU protocol. The user can through the PC/PLC PC to read and modify the function code, set the control command and the reference frequency converter, working status monitoring and fault information, to realize the centralized control.
Page 272: Protocol Format
RSE800 Vector Control AC Drive Chapter 8 Communication Protocol 8.4 Protocol Format The MODBUS protocol of the AC drive is RTU mode. Figure 8-1 shows the frame format of RTU. RTU Data Frame Structure Modbus PDU End: Start： Function Slave Data 3.5 characters...
Page 273: Functions Of Protocol
RSE800 Vector Control AC Drive Chapter 8 Communication Protocol 8.5 Functions of Protocol The main function of the MODBUS protocol is to read, write the AC drive function code parameters and non functional code parameters, different parameters determine different operation request.
Page 274 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol Table 8- 3 Group code and register’s high byte convert table Function code Function Register ID high Register ID high group code group 0x10 0x27 0x11 0x28 0x12 0x29 0x13 0x2A...
Page 275 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol Communication Address of Non-Function Parameters of the AC Drive 1.Communication set value (Wirte-only) Communication set value includes frequency source, upper source of torque, PID source, PID feedback etc. Communication set value address is 6400H. The upper machine set the address value, the data range is -10000 ~ 10000, correspond to the given value for -100.00% ~ 100%.
Page 276 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol 5.Pulse output control: (Write-only) Command address Command comment 6404H 0x0～0x7FFF corresponding to 0%～100% 6.Analog output AO1 control: (Write-only) Command address Command comment 6405H 0x0～0x7FFF corresponding to 0%～100% 7.Analog output AO2 control: (Write-only)
Page 277 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol AC drive error address AC drive error info 20: Output osting-phase 21: Contactor error 22: Current check error 23: The cycle by cycle current limiting error 24: AC drive overload 25: Motor overload...
Page 278 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol 54: Dormancy warning Communication Command Code 1. Communication read function code: 03H Function code: 03H, read N word ( Max value is 50 ) Example: The slave address is 01H, start address is 2302H, read number is 2 word, the structure...
Page 279 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol CRC high byte HCRC H 2. Communication write command: 06H or 44H Function code: 06H or 44H, write one word, the function code 44H and 06H has the same structure, but 44H doesn’t change the EEPROM value.
Page 280 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol CRC low byte LCRC H CRC high byte HCRC H 3. Communication error code If there is a communication error occurs, the master should response an error code, the error code value is “request function code ” + 0x80.
Page 281 RSE800 Vector Control AC Drive Chapter 8 Communication Protocol return (crc_value);...
Page 282: Chapter 9 Maintenance
RSE800 Vector Control AC Drive Chapter 9 Maintenance Chapter 9 Maintenance 9.1 Routine Repair and Maintenance It is necessary to carry out the maintenance for avoiding the fault of the AC drive, keeping devices running normally and prolonging the service life of the AC drive. The content of maintenance is as...
Page 283: Storage And Warranty Agreement
RSE800 Vector Control AC Drive Chapter 9 Maintenance （1）Cooling Fans The service life of cooling fans inside the AC drive is about 2 to 3 years. When bearings of cooling fans are abraded or fan blades are broken, replacement of fans must be considered.
Page 284: Chapter 10 Optional Cards
RSE800 Vector Control AC Drive Chapter 10 Optional Cards Chapter 10 Optional Cards 10.1 Relay Card（IO1） IO1 is an optional card for relay and digital output .It needs to be used together with the vector control AC drives which is produced by our company.
Page 285: Multi-Function Io Card（Io2
RSE800 Vector Control AC Drive Chapter 10 Optional Cards 10.2 Multi-function IO Card（IO2） IO2 is an optional card for analog input, digital input and digital output. It needs to be used together with the vector control AC drives which is produced by our company.
Page 286: Multi-Function Io Card（Io3
RSE800 Vector Control AC Drive Chapter 10 Optional Cards 10.3 Multi-function IO Card（IO3） IO3 is an optional card for digital input and relay output. It needs to be used together with the vector control AC drives which is produced by our company.
Page 287: Temperature Sample Card（Io4
RSE800 Vector Control AC Drive Chapter 10 Optional Cards 10.4 Temperature Sample Card（IO4） IO4 is an optional card for PT100/PT1000 temperature sensor. It needs to be used together with the vector control AC drives which is produced by our company.
Page 288 RSE800 Vector Control AC Drive Chapter 10 Optional Cards 10.5 Differential Encoder Card（PG1） PG1 is an optional card for differential ABZ incremental encoder. It needs to be used together with the vector control AC drives which is produced by our company..
Page 289 RSE800 Vector Control AC Drive Chapter 10 Optional Cards 10.6 OC type Encoder Card（PG2） PG2 is an optional card for OC type ABZ incremental encoder. It needs to be used together with the vector control AC drives which is produced by our company.
Page 290: Appendix: Records Of Version Changes
Appendix: Records of Version Changes Date Version The content of changing  The first version is released officially. 2017-5 V1.0 Chapter 2  Add new model: 2S-2R2, 4T-132G/160L, 4T-160G/185L, 5T-132G/160L, 5T-160G/185L 2018-9 V1.4 Chapter 5~6 Updated parameters Revised d3.03~d3.18 RSE800 series 2023-8 V1.5...
Page 291: Product Warranty Card
Red Sun Electric LTD. Product Warranty Card Company Address: Contact person: Company Name: Customer Information Telephone: Zip code: Product type: Body bar code: Product Information Name of agent: （Maintenance time and content）: Fault Information Maintenance Personnel:...
Page 292: Customer Service Center
Red Sun Electric Warranty Agreement 1. Warranty objects are the AC drives manufactured by Red Sun Electric LTD. 2. During the warranty period, under the condition of normal use by following the user manual, if the product fails or is damaged, our company will be responsible for free maintenance. 3.