VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
“
Product Specifications
| Model No. | VFD-750C-230 |
|---|---|
| PWM Output | (Note 1,2,3,4) |
| Input Voltage Range (UVW) | 380Vmax, line-to-line voltage 0~268V adjustable with modulated PWM, suitable for 3PH 200-240V class motor |
| Rated Power | 350W |
| Efficiency | DC BUS VOLTAGE PWM FREQUENCY RATED INPUT VOLTAGE: 2.5 KHz ~ 15 KHz, 90 ~ 264VAC |
Product Usage Instructions
1. Installation
Follow these steps to install the VFD-750C-230:
- Ensure proper electrical connections are made according to the
specified voltage range. - Mount the module securely in a suitable location.
2. Operation
To operate the VFD-750C-230:
- Apply power within the specified voltage range.
- Control the module using the provided PWM signals.
3. Safety Precautions
For safe usage of the product:
- Avoid exposing the module to moisture or extreme
temperatures. - Do not operate the module beyond the rated power and current
limits.
Frequently Asked Questions (FAQ)
Q: What is the maximum inrush current for the
VFD-750C-230?
A: The maximum inrush current for cold start is 50A at
230VAC.
Q: How can I control the VFD-750C-230?
A: The module can be controlled using 3-phase PWM signals as
specified in the manual.
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VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
User’s Manual
Video
IEC61800-5-1
Bauar t gepruft Sicherheit
egelma ge od o s be wac g
www.tuv.com ID 2000000000
BS EN/EN61800-5-1
TPTC004
~
https://www.meanwell.com/serviceGTIN.aspx
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
SPECIFICATION
MODEL NO. PWM OUTPUT
(Note 1,2,3,4)
INPUT
CONTROL / FUNCTION
(Note 5)
PROTECTION ENVIRONMENT
SAFETY & EMC
OTHERS NOTE
VFD-750C-230
VOLTAGE RANGE(UVW)
380Vmax, line-to-line voltage 0~268V adjustable with modulated PWM , suitable for 3PH 200-240V class motor
CURRENT
Rated Peak
3A 6A for 5 seconds
RATED POWER
350W
EFFICIENCY DC BUS VOLTAGE
93% 380±5VDC
PWM FREQUENCY RATED INPUT VOLTAGE
2.5 KHz ~ 15 KHz 90 ~ 264VAC
INPUT FREQUENCY RANGE (Hz) 47 ~ 63Hz
POWER FACTOR (Typ.)
PF>0.99/115VAC, PF>0.93/230VAC at full load
RATED INPUT CURRENT
8A /115VAC 4A/230VAC
INRUSH CURRENT
Cold start 50A /230VAC
LEAKAGE CURRENT 3-PHASE PWM CONTROL
<2mA/240VAC PWM control signal to gate driver for IGBTs. (CN93, PIN8~13) 3.3V TTL/CMOS input: High(>2.7V): IGBT ON ; Low(<0.4V): IGBT OFF
3-PHASE CURRENT SENSOR DC BUS VOLTAGE SENSOR
Built-in 100m low-side shunt resistors on UVW phase (CN93, PIN4~6)
DC BUS voltage sensor output (CN93, PIN1) 2.5V@DC BUS 380V
THERMAL SENSOR
Built-in 10K NTC for sensing IGBTs operating temperature. (TSM2A103F34D1R (Thinking Electronic), PIN3 of CN93)
FAULT SIGNAL AUXILIARY POWER
Inverter fault signal(Short circuit/OCP, CN93, PIN7).
3.3V TTL/CMOS output: Normal: High(>3V); Abnormal: Low(<0.5V) Non-isolated 15V output power for external control board (CN93,PIN 14 to PIN2 ) 15V@0.1A ; Tolerance +/- 0.5V, Ripple 1Vp-p max
SHORT CIRCUIT WORKING TEMP.
Protection type : Shut down o/p voltage, re-power on to recover -30 ~ +60 (Refer to “Dreating Curve”)
WORKING HUMIDITY STORAGE TEMP., HUMIDITY
20 ~ 90% RH non-condensing -40 ~ +85, 10 ~ 95% RH non-condensing
VIBRATION
10 ~ 500Hz, 2G 10min./1cycle, period for 60min. each along X, Y, Z axes
SAFETY STANDARDS
CB IEC61800-5-1,TUV/BS EN/EN61800-5-1,EAC TP TC004 approved
WITHSTAND VOLTAGE
I/P-FG:2KVAC
ISOLATION RESISTANCE
I/P-FG:100M Ohms/500VDC/25/ 70%RH
Parameter
Standard
Test Level / Note
EMC EMISSION
Conducted Radiated Harmonic Current Voltage Flicker
BS EN/EN IEC61800-3 BS EN/EN IEC61800-3 BS EN/EN IEC61000-3-2 BS EN/EN61000-3-3
Class A, C2 Class A, C2 Class A —–
BS EN/EN IEC61800-3, second environment
EMC IMMUNITY
Parameter ESD Radiated EFT/Burest Surge Conducted Magnetic Field
Standard BS EN/EN61000-4-2 BS EN/EN IEC61000-4-3 BS EN/EN61000-4-4 BS EN/EN61000-4-5 BS EN/EN61000-4-6 BS EN/EN61000-4-8
Test Level /Note Level 3, 8KV air ; Level 2, 4KV contact Level 3 Level 3 Level 3, 2KV/Line-Earth ; Level 3, 1KV/Line-Line Level 3 Level 4
Voltage Dips and Interruptions BS EN/EN IEC61000-4-11
>95% dip 0.5 periods, 30% dip 25 periods, >95% interruptions 250 periods
MTBF
Voltage deviation
IEC 61000-2-4 Class 2
±10% Un
Total Harmonic distortion (THD) Individual Harmonic orders
IEC 61000-2-4 Class 3 IEC 61000-4-13 Class 3
THD 12 %
Frequency variations
IEC 61000-2-4
±4%
Frequency rate of change
IEC 61000-2-4
2%/s
2863.4K hrs min.Telcordia SR-332 (Bellcore) ; 310.5K hrs min.MIL-HDBK-217F (25)
DIMENSION (L*W*H)
150*100*41mm
PACKING
0.8Kg;30pcs/25kg/1.64CUFT
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
Block Diagram
ACL ACN FG
EMI FILTER
PFC CIRCUIT
380VDCBus
UH
VH WH GATE DRIVE CONTROL UL
VL WL FAULT ITRIP
AUX POWER
SHORTCIRCUIT PROTECT
HV+ HV-
IGBT temperature
sensor
V/I CURVE
Io
6A
Peak current
U
(5 sec.)
V
3.24A
W
3A
1.62A
Continuous duty S1 area
RSH_U RSH_V RSH_W PWM_UH PWM_UL PWM_VH PWM_VL PWM_WH PWM_WL FAULT HV+ sensor
HV-
Vaux_15V
RTH
150V
268V
Vo
Derating Curve
Output Derating VS Input Voltage
LOAD (%)
100
80
Conduction cooling
or
Forced air cooling
50
40
Convection cooling
30
20
-30
0
10
20
30
40
50
60 70 (HORIZONTAL )
AMBIENT TEMPERATURE
LOAD (%)
100
90
80
70
60
With 23.5CFM Fan
50 40
90 95 115 120 130 140 160 180 200 220 240 264
INPUT VOLTAGE (VAC) 60Hz
Peak Current
200%
80% 5 sec.
55 sec.
EFFICIENCY (%)
Efficiency vs Load
100% 95% 90% 85% 80% 75% 70% 65% 60%
30% 40% 50% 60% 70% 80% 90% 100%
115VAC 230VAC
LOAD
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
Function Manual
1. 3-phase PWM Control (CN93, PIN8~13) VFD-750C-230 provides six-switch circuit by using 3 half-bridge IGBTs. IGBTs of each phase is controlled by PWM_UH/UL, PWM_VH/VL and PWM_WH/WL (PIN 8~13). The input requirement for PWM is compatible with both TTL and CMOS 3.3V signals. Please refer to the diagram below.
PIN 13 PWM_UL PIN 12 PWM_UH PIN 11 PWM_VL PIN 10 PWM_VH PIN 9 PWM_WL PIN 8 PWM_WH
External MCU Control Card
PWM
MCU
WARNING: It is necessary to keep minimum dead-time between the upper and lower switch of each phase.
t dead
t dead
tdead (Min.)
300ns
PWMxH
PWMxL
t sw
Output Voltage
VX
380V 0V
tdead : Switching dead-time t sw : Switching period
x = U, V, W
2. 3-phase Current Detection & Overcurrent Protection (CN93, PIN4~6)
Low-side shunt resistors 100m are installed on each phase of VFD-750C-230 for current measurement and short-circuit detection. It’s suggested to shorten the length of external detection circuit and detect the signal with a OPAs. Please refer to diagram below.
PIN 6 RSH_W PIN 5 RSH_V PIN 4 RSH_U PIN 2 HV-
Voff set
External MCU Control Card
x3
+ OPA
–
IU ADC MCU
If output current exceeds 200% of rated value, the internal protection circuit will be triggered and shut down the gate driver for protection.
Gate -drive
ITRIP
Voc U
COMP
Voc V Voc W
Short-circuit
Iu
Protection
Iv
Iw
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
3. DC BUS Voltage Detection (CN93, PIN1) VFD-750C-230 is build-in with DC bus voltage sensor(HV+ sensor, PIN 1). The sensor provides a 2.5V output when DC bus voltage is at 380V. It’s suggested to detect the signal by OPAs. When the voltage of the DC bus exceed 420V, the PWM input signal must shut down for protection.
External MCU Control Card
PIN1 HV+ sensor
+ OPA
–
ADC MCU
Real DC Bus volta ge(V)
Equation for DC bus voltage calculation: VDC BUS = 380 x HV+sensor
2.5
HV+ sensor specification 600 400 200
0
0.00
1.00
2.00
3.00
4.00
HV+ sensor output voltage(V)
4. IGBT Temperature Detection (CN93, PIN3)
VFD-750C-230 is built-in temperature sensor for detecting the power module’s temperature. Users can detect the power module’s temperature for protection. The recommended detection circuit is below. It’s suggested to shutdown the PWMs input, if the pin 3 voltage exceed 3.3V.
PIN 3 RTH
Vtemp
External MCU Control Card MCU
PIN 2 HV-
5. Fault signal
If the VFD-750C-23 encounters an overcurrent condition and remains in that state for the minimum overcurrent time, the FAULT signal will be activated (active low) to notify the external controller or circuit.
Ouput Current
t Tripmin.
200% rated current
tTripmin.
1us
PIN7 FAULT
t Tripmin.
5us
Min. over-current tripping time
6. Brake Recommandations(CN100,PIN1,3)
VFD-750C-230reserved CN100 PIN1,3 that connect to HV+,HV- for brake circuit design . The maximum voltage on DC Bus(HV+) shall not be higher than 420V.
External MCU Control Card
CN93 PIN1 HV+ Sensor TB100 PIN3 HV-
TB100 PIN1 HV+
Vref COMP Gate drive
HV+ Brake Resistor
HV-
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
Mechanical Specification
(Unit: mm , tolerance ± 1mm)
150
143
3.5
8
6 7.62
3 2 1 TB1
TB100 5 4 3 2 1
4-4.2 L=6
7.62
6
84
100
1
13
CN93
2
14
1
13
2
14
41
AC Input Terminal Pin NO. Assignment (TB1)
Pin No. Assignment
1
AC/L
2
AC/N
3
Output Terminal Pin NO. Assignment (TB100)
Pin No. Assignment Pin No. Assignment
1
W
4
HV-
2
V
5
HV+
3
U
TB100 Pin4,Pin5 is used for installing regenerative brake device, avoiding VFD-750C-230 damage.
Control Pin NO. Assignment (CN93) : HRS DF11-14DP-2DS or equivalent
Pin No. Assignment Pin No. Assignment
1
HV+ sensor
8
PWM_W H
2
HV-
9
PWM_W L
3
RTH
10
PWM_V H
4
RSH _U
11
PWM_V L
5
RSH _V
12
PWM_U H
6
RSH _W
13
PWM_U L
7
FAULT
14
Vaux_15V
Mating housing: HRS DF11-14DS or equivalent Terminal HRS DF11-**SC or equivalent
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
Control Pin No. Assignment(CN93) :
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Function Description
HV+ sensor DC BUS voltage sensor output, reference to pin 2(HV-)
HV- DC BUS voltage sensor output ground
RTH Temperature sensor
RSH_U RSH_V RSH_W FAULT
U phase current sensor output V phase current sensor output W phase current sensor output Over current detection. Normal > 3V, Abnormal < 0.5V
PWM_WH PWM_WL PWM_VH PWM_VL PWM_UH PWM_UL Vaux_15V
W phase high side logic input, on > 2.7V ; off < 0.4V W phase low side logic input, on > 2.7V ; off < 0.4V V phase high side logic input, on > 2.7V ; off < 0.4V V phase low side logic input, on > 2.7V ; off < 0.4V U phase high side logic input, on > 2.7V ; off < 0.4V U phase low side logic input, on > 2.7V ; off < 0.4V Auxiliary voltage output 15V reference to pin2 (HV-). The maximum load current is 0.1A
Application
Application example: BLDC drive application
AC Input
ACL ACN FG
VFD-750C-230
U V W
PWM_UH PWM_UL PWM_VH PWM_VL PWM_WH PWM_WL
Vaux_15V
FAULT
RTH
RSH_U
RSH_V
380VDC
RSHW HV+ sensor
HV+ HV- HV-
(TB100)(TB100)
BLDC motor
Mechanical Load
Shaft
Encoder/Hall-effect position sensors
User’s BLDC control board
User’s brake device
Brake Control
1.The figure shows a BLDC drive system set up with VFD-750C-230. 2.Developers can control the PWM signal of 6-switch by using SPWM or SVPWM, etc. for 3-phase voltage modulation, and build the control method base
on the current shunt sensors on 3-phase low-side switch(RSH_U/V/W) and the DC BUS voltage sensor(HV+ sensor) which provided by VFD-750C-230. 3.Developers can select the appropriate BLDC position sensors such as encoder or Hall-effect sensors to fit their applications. 4.It’s suggested to install the brake circuit/device at the HV+/HV- pin( DC BUS,CN100) to avoid the DC BUS OVP when BLDC is decelerating. 5.It’s suggested to shut down the PWM input or connect to brake resistor device for safety when DC Bus voltage is higher than 420V. 6.If VFD-750C-230 was applied with non-appropriate control, such as accelerating too quickly or bad current control, it might trig the VFD-750C-230’s
fault-state to shut down the output voltage(low-level on FAULT pin).
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W General type Variable Frequency Drive with PFC function
Installation
1.Operate with additional aluminum plate In order to meet the”Derating Curve”and the “Static Characteristics” ,VFD series must be installed onto an aluminum plate(or the cabinet of the same size) on the bottom.The size of the suggested aluminum plate is shown as below. And for optimizing thermal performance, the aluminum plate must have an even and smooth surface (or coated with thermal grease), and VFD series must be firmly mounted at the center of the aluminum plate.
M4*4
450
450
2.With 23.5CFM forced air
23.5CFM
FAN
Air flow direction
75mm
100mm
3
File Name:VFD-750C-230-SPEC 2024-11-22
VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function
Accessory List
If you have any control requirement of specific application, please consult MEAN WELL for more details. Motor control board ( Motor control board and VFD drive module should be ordered separately ):
MW’s order No.
Control Board
Assembly Suggestion
Quantity
VFD-CB
1
Typical Application
1 Variable Frequency Module (VFD series)
2 Control board of Variable Frequency Drive (Designed by User or Soluton Provided by MEAN WELL
3 3-phase Pump Motor
1 Battery
2 Variable Frequency Module (VFD series)
3 Control board of Variable Frequency Drive (Designed by User or Soluton Provided by MEAN WELL)
4 3-phase Wheel Motor for AGV Application
1 Variable Frequency Module (VFD series)
2 Control board of Variable Frequency Drive (Designed by User or Soluton Provided by MEAN WELL)
3 3-phase Fan Motor
4 HEPA for Filtering Air
DEMO KIT
Please contact MEAN WELL for more detail.
VFD Demo Kit Main Function and Features. 1 Built-in VFD-350P-230 and 230V motor. 2 Motor start /stop/ forward/ reverse/speed control. 3 Motor start /stop/forward /reverse indicator right. 4 Motor speed (RDM)display. 5 Control board replaceable. 6 Support external motor connection.
Installation Manual
Please refer to : http://www.meanwell.com/manual.html
File Name:VFD-750C-230-SPEC 2024-11-22
Documents / Resources
 |
MEAN WELL VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function [pdf] Owner's Manual VFD-750C-230 750W AC Input Variable Frequency Drive Module with PFC Function, VFD-750C-230, 750W AC Input Variable Frequency Drive Module with PFC Function, Variable Frequency Drive Module with PFC Function, Drive Module With PFC Function, With PFC Function |
