With each iteration, the datasheet ceased to be a wall of text and became a conversation. The truth table showed how inputs mapped to motion—forward, reverse, brake. Footnotes clarified how the sleep pin reduced quiescent current; application notes suggested a bootstrap capacitor to stabilize peak currents. Mara annotated margins the way readers of old novels dogeared passages: little arrows, circled numbers, question marks, a small heart next to "over-current protection."
Connecting the MX1616 to an Arduino is straightforward. This example demonstrates how to control the speed and direction of a single motor (Motor A). Wiring Guide MX1616 →right arrow Arduino 5V or External Battery Positive (1.8V - 7V) MX1616 GND →right arrow Arduino GND MX1616 INA1 →right arrow Arduino D5 (PWM Pin) MX1616 INA2 →right arrow Arduino D6 (PWM Pin) Sample Arduino Code
Before wiring any circuit, you must understand the pinout. The Mx1616 is commonly available on a with a 16-pin configuration (screw terminals for motor/power and header pins for logic).
Standard Logic-Level H-Bridge control (compatible with 3.3V and 5V microcontrollers).
The is a highly efficient, dual-channel H-bridge motor driver IC designed primarily for low-voltage, battery-powered robotics, smart toys, and small-scale automation projects. Manufactured by Sinotech Mixic Electronics , this chip serves as an ideal alternative to bulkier, older drivers like the L298N or L293D by utilizing low-resistance internal MOSFETs instead of bipolar transistors. This design minimizes power loss and eliminates the need for external heat sinks.
This report is for informational purposes. Always consult the official datasheet provided by your component supplier for absolute ratings and legal compliance.
The motor behavior is dictated by the logic applied to the input pins (IN1-IN4). Motor State Stop / Standby Forward (Clockwise) Reverse (Counter-Clockwise) Brake (Short) Note: The same logic applies to IN3/IN4 for Motor B. 5. Application Circuit and Usage The MX1616 module is incredibly simple to implement. Typical Connections: Connect your battery (2.0V - 8.6V) to the VDDcap V sub cap D cap D end-sub and GND terminals. Motor A: Connect Motor A terminals to OUT1 and OUT2. Motor B: Connect Motor B terminals to OUT3 and OUT4.
Built-in Thermal Shutdown (TSD) circuit with hysteresis to prevent chip failure under excessive load. Pin Configuration & Control Logic
| Feature | MX1616 | TB6612FNG | | :--- | :--- | :--- | | Max VM Voltage | 13.5V | 13.5V | | Max Current (DC) | 1.6A | 1.2A | | Peak Current | 3.2A | 3.2A | | R_DS(on) | ~0.8Ω | ~0.5Ω | | Package | SOP-16 | SSOP-24 / QFN | | Availability | Low-cost, generic | Original Toshiba |
Mx1616 Motor Driver Datasheet [verified]
With each iteration, the datasheet ceased to be a wall of text and became a conversation. The truth table showed how inputs mapped to motion—forward, reverse, brake. Footnotes clarified how the sleep pin reduced quiescent current; application notes suggested a bootstrap capacitor to stabilize peak currents. Mara annotated margins the way readers of old novels dogeared passages: little arrows, circled numbers, question marks, a small heart next to "over-current protection."
Connecting the MX1616 to an Arduino is straightforward. This example demonstrates how to control the speed and direction of a single motor (Motor A). Wiring Guide MX1616 →right arrow Arduino 5V or External Battery Positive (1.8V - 7V) MX1616 GND →right arrow Arduino GND MX1616 INA1 →right arrow Arduino D5 (PWM Pin) MX1616 INA2 →right arrow Arduino D6 (PWM Pin) Sample Arduino Code
Before wiring any circuit, you must understand the pinout. The Mx1616 is commonly available on a with a 16-pin configuration (screw terminals for motor/power and header pins for logic). Mx1616 Motor Driver Datasheet
Standard Logic-Level H-Bridge control (compatible with 3.3V and 5V microcontrollers).
The is a highly efficient, dual-channel H-bridge motor driver IC designed primarily for low-voltage, battery-powered robotics, smart toys, and small-scale automation projects. Manufactured by Sinotech Mixic Electronics , this chip serves as an ideal alternative to bulkier, older drivers like the L298N or L293D by utilizing low-resistance internal MOSFETs instead of bipolar transistors. This design minimizes power loss and eliminates the need for external heat sinks. With each iteration, the datasheet ceased to be
This report is for informational purposes. Always consult the official datasheet provided by your component supplier for absolute ratings and legal compliance.
The motor behavior is dictated by the logic applied to the input pins (IN1-IN4). Motor State Stop / Standby Forward (Clockwise) Reverse (Counter-Clockwise) Brake (Short) Note: The same logic applies to IN3/IN4 for Motor B. 5. Application Circuit and Usage The MX1616 module is incredibly simple to implement. Typical Connections: Connect your battery (2.0V - 8.6V) to the VDDcap V sub cap D cap D end-sub and GND terminals. Motor A: Connect Motor A terminals to OUT1 and OUT2. Motor B: Connect Motor B terminals to OUT3 and OUT4. Mara annotated margins the way readers of old
Built-in Thermal Shutdown (TSD) circuit with hysteresis to prevent chip failure under excessive load. Pin Configuration & Control Logic
| Feature | MX1616 | TB6612FNG | | :--- | :--- | :--- | | Max VM Voltage | 13.5V | 13.5V | | Max Current (DC) | 1.6A | 1.2A | | Peak Current | 3.2A | 3.2A | | R_DS(on) | ~0.8Ω | ~0.5Ω | | Package | SOP-16 | SSOP-24 / QFN | | Availability | Low-cost, generic | Original Toshiba |
