5AMP DC Motor speed and direction controller using MC33035 IC from on semiconductor, though the MC33035 was designed to control brushless DC motor , it may also be used to control DC brush type motors. MC33035 driving a Mosfets based H-Bridge affording minimal parts count to operate a brush type motor. On board potentiometer provided for speed control, slide switch for direction control and brake, On board jumper available to enable the chip. The controller function is normal manner with a PWM frequency of approximately 25Khz. Motor speed is controlled by adjusting the voltage presented to the no inverting input of the error amplifier establishing the PWM’s slice or reference level. Cycle by cycle current limiting of the motor current is accomplished by sensing the voltage across the shunt resistor to ground of the H-bridge. The overcurrent sense circuit makes it possible to reverse the direction of the motor, using normal forward/reverse switch, on the fly and not have to completely stop before reversing.
- SUPPLY 12-18V DC
- Load Up to 5Amps, 5Amps with large size heat sink on Mosfets
- On Board Potentiometer for Speed Control
- Slide Switch ( SW1) for Brake
- Slide Switch (SW2) for Direction Control
- Jumper (J1) Provided to Enable the chip
- LED (D1) Fault Indicator
- LED (D2) Power Indicator
- CN1 , Supply 12-18V DC
- MG1 Motor Connections
Simple Circuit converts Step/Dir. signal into to double drive CW/CWW Pulse, Mach3 and few Hobby CNC software’s provides Step/Direction pulse output to drive stepper motor drivers.
Various AC servo works with double CW/CCW pulse. This circuit is solution to interface such AC CW/CCW pulse based driver with Mach3 or other CNC software’s. Circuit designed around 7408 and 7404 IC, board support 5V or 24V supply. Open Collector output can be interface with 24V system by changing output resistors.
- Supply 7V 24V DC
- On Board Power LED
- Inputs and Outputs Header Connector
- On Board ERTH (Earth) Signal provided for chassis ground to avoid any noise
Note : Output Transistor can drive Stepper Drive or Servo driver Opto-couplers directly , choose appropriate collector resistor value for 5V or 24V
- R3,R5,R9 470 Ohms for 5V DC Open Collector Output
- R3,R5,R9 2K2 Ohms for 24V DC Open Collector Output
- Step Pulse ( TTL 5V)
- Direction Pulse ( TTL 5V)
- Enable Signal ( TTL 5V )
1 CW (5V Or 24V Open Collector)
- CWW ( 5V Or 24V Open Collector )
- Enable ( 5V Or 24V Open Collector )
The H-Bridge Motor Driver Module Based on TB6549HQ IC from Toshiba, is a full-bridge driver IC for DC motors that uses an LDMOS structure for output transistors. High-efficiency drive is possible through the use of a MOS process with low ON-resistance and a PWM drive system. Four modes, CW, CCW, short brake, and stop, can be selected using IN1 and IN2. Supply input 12V to 30V DC and Maximum Load 4.5Amps.
- Power supply voltage: 30 V (max)
Output current 4.5 A
Low ON-resistance: 1.0 Ω (up + low/typ.)
PWM control capability
Function modes: CW/CCW/short brake/stop
Built-in overcurrent protection
Built-in thermal shutdown circuit
The Tiny board designed using LM386 SMD SO8 IC, The amplifier is designed for Voice Record IC which provides deferential signal outputs.
Voice Record/Playback IC provided differential audio PWM signal output. This circuit has been designed to amplify such dual PWM signal.
Supply 9-12V DC
4 Channel Relay Board is a simple and convenient way to interface 4 relays for switching application in your project. Very compact design can fit in small area, manly this board is made for low voltage application.
- Input supply 12 VDC @ 170 mA
- Output four SPDT relay
- Relay specification 10A/24V DC
- Trigger level 2 ~ 5 VDC
- Header Connector for connecting power and trigger voltage
- LED on each channel indicates relay status
- Power Battery Terminal (PBT) for easy relay output and aux power connection
- Four mounting holes of 3.2 mm each
Applications: Robotics, Electronics projects, Industrial controls, Microwaves Oven, Fans, DC Motor, AC Lamp, Solenoids Remote Controls etc.
Note: The board is designed for low voltage switching application, maximum supply at relay contacts 48V DC/7Amps
Dual channel Compact Relay driver module can be controlled by feeding 2-12V trigger voltage, Very useful project for application like Micro-Controller based projects, Remote controller, Lamp on Off, and any circuits which required isolated 5A current and high voltage switching by applying any TTL or CMOS level voltage. Two LED works as operation indicator, 3 pins screw terminals to connect load. Relay provides both normally open and normally closed switching.
Note: Board is made only for low voltage switching applications.
- Input: 12 VDC @ 84 mA
- Output: Two SPDT relay
- Relay specification: 5 A @ 60 VAC
- Trigger level: 2 to 12 VDC
- Header connector for connecting power and trigger voltage
- LED on each channel indicates relay status
- Power Battery Terminal (PBT) for easy relay output connection
The A3968 bidirectionally controls two DC motors. The device includes two full-bridges capable of continuous output currents of ±650 mA and operating voltages to 30 V. Motor winding current can be controlled by the internal fixed-frequency, pulse-width modulated (PWM), current-control circuitry. The peak load current limit is set by user selection of a reference voltage and current-sensing resistors.The fixed-frequency pulse duration is set by a user-selected external RC timing network. The capacitor in the RC timing network also determines a user-selectable blanking window that prevents false triggering of the PWM current-control circuitry during switching transitions.To reduce on-chip power dissipation, the full-bridge power outputs have been optimized for low saturation voltages. The sink drivers feature the Allegro® patented Satlington® output structure. The Satlington outputs combine the low voltage drop of a saturated transistor and the high peak current capability of a Darlington.For each bridge, the INPUTA and INPUTB terminals determine the load-current polarity by enabling the appropriate source and sink driver pair. When a logic low is applied to both INPUTs of a bridge, the braking function is enabled. In brake mode, both source drivers are turned off and both sink drivers are turned on, thereby dynamically braking the motor. When a logic high is applied to both INPUTs of a bridge, all output drivers are disabled.Special power-up sequencing is not required. Internal circuit protection includes thermal shutdown with hysteresis, ground-clamp and flyback diodes, and crossover-current protection.
- ±650 mA continuous output current
- 30 V output voltage rating
- Internal fixed-frequency PWM current control
- Satlington® sink drivers
- Brake mode
- User-selectable blanking window
- Internal ground-clamp and flyback diodes
- Internal thermal-shutdown circuitry
- Crossover-current protection and UVLO protection
Designed for pulse-width modulated (PWM) current control of dc motors, the A3959 is capable of output currents to ±3 A and operating voltages to 50 V. Internal fixed off-time PWM current-control timing circuitry can be adjusted via control inputs to operate in slow, fast, and mixed current-decay modes. PHASE and ENABLE input terminals are provided for use in controlling the speed and direction of a dc motor with externally applied PWM-control signals. Internal synchronous rectification control circuitry is provided to reduce power dissipation during PWM operation. Internal circuit protection includes thermal shutdown with hysteresis, under voltage monitoring of supply and charge pump, and crossover-current protection. Special power-up sequencing is not required.
- ±3 A, 50 V Output Rating
- Low rDS(on) Outputs (270 milliohms, Typical)
- Mixed, Fast, and Slow Current-Decay Modes
- Synchronous Rectification for Low Power Dissipation
- Internal UVLO and Thermal-Shutdown Circuitry
- Crossover-Current Protection
- Internal Oscillator for Digital PWM Timing
The Schematic is based on A4973 IC, Designed for bidirectional pulse width modulated (PWM) current control of inductive loads, the A4973 is capable of continuous output currents to ±1.5 A and operating voltages to 50 V. Internal fixed off-time PWM current-control circuitry can be used to regulate the maximum load current to a desired value. The peak load current limit is set by the user’s selection of an input reference voltage and external sensing resistor. The fixed off-time pulse duration is set by a user- selected external RC timing network. Internal circuit protection includes thermal shutdown with hysteresis, transient-suppression diodes, and crossover current protection. Special power-up sequencing is not required. With the ENABLE input held low, the PHASE input controls load current polarity by selecting the appropriate source and sink driver pair. The MODE input determines whether the PWM current-control circuitry operates in a slow current-decay mode (only the selected source driver switching) or in a fast current-decay mode (selected source and sink switching). A user-selectable blanking window prevents false triggering of the PWM current-control circuitry. With the ENABLE input held high, all output drivers are disabled. A sleep mode is provided to reduce power consumption.
Note : – For Higher Motor Supply (12-50V) Input, Omit U2 , in the case logic 5V supply required and possible Motor supply range 12-50V DC
Note : – Refer data sheet of IC A4973 for R1 and R2 Value
▪ ±1.5 A continuous output current
▪ 12 V DC Supply
▪ 3 V to 5.5 V logic supply voltage
▪ Internal PWM current control
▪ Fast and slow current-decay modes
▪ Sleep (low current consumption) mode
▪ Internal transient-suppression diodes
▪ Internal thermal shutdown circuitry
▪ Crossover current and UVLO protection
Inside IC A4973