Specifications Parameter Symbol SLA7032M SLA7033M Units Motor supply voltage VCC 46 46 V FET Drain-Source voltage VDSS 100 100 V Control supply voltage VDD 7 7 V TTL input voltage VIN −0.5 to VDD+0.5 −0.5 to VDD+0.5 V Output current IO 1.2 3 ...
SLA7042M: Specifications Parameter Symbol SLA7032M SLA7033M Units Motor supply voltage VCC 46 46 V FET Drain-Source voltage VDSS 100 100 V Control supply voltage VDD 7 7 V TTL...
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Parameter | Symbol | SLA7032M | SLA7033M | Units |
Motor supply voltage | VCC | 46 | 46 | V |
FET Drain-Source voltage | VDSS | 100 | 100 | V |
Control supply voltage | VDD | 7 | 7 | V |
TTL input voltage | VIN | −0.5 to VDD+0.5 | −0.5 to VDD+0.5 | V |
Output current | IO | 1.2 | 3 | A |
Power dissipation | PD | 4.5 (Without Heatsink) | 4.5(Without Heatsink) | W |
Channel temperature | Tch | +150 | +150 | °C |
Storage temperature | Tstg | −40 to +150 | −40 to +150 | °C |
The SLA7042M and SLA7044M are designed for high-efficiency and high-performance microstepping operation of 2-phase, unipolar stepper motors. Microstepping provides improved resolution without limiting step rates, and provides much smoother low-speed motor operation. An automated, innovative packaging technology combined with power NMOS FETs and monolithic CMOS logic/control circuitry advances power multi-chip modules (PMCMsTM) toward the complete integration of motion control. Each half of these stepper motor controller/drivers operate independently. The 4-bit shift registers are serially loaded with motor phase information and output current-ratio data (eight levels). The combination of user-selectable current-sensing resistor, linearly adjustable reference voltage, and digitally selected output current ratio provides users with a broad, variable range of of full, half, and microstepping motor control (IOUT È [VREF /3 ð RS] ð Current Ratio).
Each PMCM is rated for a maximum motor supply voltage of 46 V and utilizes advanced NMOS FETs for the high-current, high-voltage driver outputs. The avalanche-rated (>=100 V) FETs provide excellent ON resistance, improved body diodes, and very-fast switching. The multi-chip ratings and performance afford significant benefits and advantages for stepper drives when compared to the higher dissipation and slower switching speeds associated with bipolar transistors. Highly automated manufacturing techniques provide low-cost and exceptionally reliable PMCMs suitable for controlling and directly driving a broad range of 2-phase, unipolar stepper motors. The SLA7042M and SLA7044M are identical except for rDS(on) and output current ratings.
Complete applications information is given on the following pages. PWM current is regulated by appropriately choosing current-sensing resistors, a voltage reference, and digitally programmable current ratio. Inputs are compatible with 5 V logic and microprocessors.
The SLA7042M and SLA7044M are designed for high-efficiency and high-performance microstepping operation of 2-phase, unipolar stepper motors. Microstepping provides improved resolution without limiting step rates, and provides much smoother low-speed motor operation. An automated, innovative packaging technology combined with power NMOS FETs and monolithic CMOS logic/control circuitry advances power multi-chip modules (PMCMsTM) toward the complete integration of motion control. Each half of these stepper motor controller/drivers SLA7042M operate independently. The 4-bit shift registers are serially loaded with motor phase information and output current-ratio data (eight levels). The combination of user-selectable current-sensing resistor, linearly adjustable reference voltage, and digitally selected output current ratio provides users with a broad, variable range of of full, half, and microstepping motor control (IOUT È [VREF /3 ð RS] ð Current Ratio).
Each PMCM is rated for a maximum motor supply voltage of 46 V and utilizes advanced NMOS FETs for the high-current, high-voltage driver outputs. The avalanche-rated (>=100 V) FETs provide excellent ON resistance, improved body diodes, and very-fast switching. The multi-chip ratings and performance afford significant benefits and advantages for stepper drives when compared to the higher dissipation and slower switching speeds associated with bipolar transistors. Highly automated manufacturing techniques provide low-cost and exceptionally reliable PMCMs suitable for controlling and directly driving a broad range of 2-phase, unipolar stepper motors. The SLA7042M and SLA7044M are identical except for rDS(on) and output current ratings.
Complete applications information is given on the following pages. SLA7042M PWM current is regulated by appropriately choosing current-sensing resistors, a voltage reference, and digitally programmable current ratio. Inputs are compatible with 5 V logic and microprocessors.