30V-30A High Frequency H-Bridge with Integrated Heat Sink, High-Pulse Control (HPC), for Bidirectional DC Motor Control
The Si30HFHB-30V-30A-HPC is a 30V 30A, microprocessor based, high-frequency, H-Bridge with high-pulse (0 to +5V PWM) control input. This controller requires only one 0 to 20kHz active high PWM input on pin I1 and one static directional control input on pin I2 to control the speed and rotation direction of a DC motor (as shown on the truth table given below). An onboard microprocessor samples the control inputs at 150kHz rate and generates the timing signals for the H-Bridge. The high sampling rate provides a worst-case PWM control latency of 8uS. The pin I1 input can be Pulse Width Modulated (PWM) from DC to 20kHz carrier rate. This board uses a single (8V to 30V at 0 to 30A) DC power supply to control the speed of a DC motor (or load current) in forward or reverse direction. A bicolor LED is used to monitor the motor (or load) voltage (Red = Forward, Green = Reverse). A small (4.6”x2.4”x1.0”) integrated finned heat-sink is used to operate the bridge at 30A (continuous) current levels. Higher current-levels (40A) can be achieved with more efficient heat-sinks. Please click on this link and read the Board Mounting Instructions and Heat Sink Selection Guide. This board operates in a wide voltage-range (8V to 30V) at a maximum continuous load-current of 30A. Typical applications are: Bi-directional DC Motor-Speed Controller, Peltier Effect TE Coolers, Heat Pumps, DPDT Solid State Relay, etc. This board can be configured and programmed to perform efficiently in many customized applications.
HPC Control Truth Table (on connector CN5)
· The I1 control line (VI1,G) can be Pulse-Width Modulated (PWM in a range of 0-20k Hz) to vary the average current supplied to a load or to a DC Motor.
· Typical Input Resistance of I1 and I2 is 33kOhm, relative to pin G
Frequency Response of the Si30HFHB-30V-30A-HPC
The I1 control line (VI1,G input voltage, 0 to +5V) can be Pulse-Width Modulated (PWM with a duty-cycle of 0% to 100%) over a wide range of carrier frequencies, as shown on the graph. This plot was obtained with the finned heat-sink (4.6” x 2.4” x 1.0”, as shipped with the unit). Improved performance can be achieved with more effective heat-sinks.
A Typical Motor Control Application of the Si30HFHB-30V-30A-HPC
In this open-loop application, the motor direction is selected by a 0 to +5V control signal (VI2,G, on pin I2, using an external normally-open switches S2, connected to the internal +5V source), while the motor speed (or average load current) is controlled by duty-cycle of the PWM signal (VI2,G on pin I1 on port CN5, as shown below). The I1 input can be Pulse –Width Modulated (with 0 to +5V pulses sequence) over a wide Frequency range.
Warning: The connecting wires to the Load and the Power Supply must be heavy gauge copper wire (#12 AWG or heavier) to handle the rated current level. In addition, these heavy gauge wires act as a heat sink, protecting the board from overheating. Note that each connecting point on CN1 is available at 2 places, thus two smaller wires can be used in place of a larger one. Each Pin on CN1 has a current rating of 32A (or 64A Jointly).
Typical Applications: Driver for Bidirectional Variable-Speed DC Motors, Peltier Effect TE Cells, Heat Pumps, PPDT Solid State Relays.
|Si30HFHB-30V-30A-HPC, 30V, 30A High Frequency H-Bridge with Finned Heat Sink and High-Pulse Control for Bidirectional DC Motor Control.||
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