SZIP Motion Control ICs 11

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Part	Manufacturer	Other IC type	Temperature Grade	No. of Terminals	Package Code	Package Shape	Surface Mount	Package Body Material	Maximum Supply Current (Isup)	Maximum Output Current	No. of Functions	Technology	Terminal Form	Nominal Supply Voltage (Vsup)	Power Supplies (V)	Package Style (Meter)	Package Equivalence Code	Sub-Category	Terminal Pitch	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	Terminal Position	JESD-30 Code	Maximum Supply Voltage (Vsup)	Maximum Seated Height	Width (mm)	Qualification	Minimum Supply Voltage (Vsup)	Additional Features	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Length
TB6600HG	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		5 A	1	BCDMOS	THROUGH-HOLE	24 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-30 Cel		ZIG-ZAG	R-PZIP-T25	42 V	19.37 mm	4.5 mm		8 V			30	260	28.8 mm
TB67H303HG	Toshiba	BRUSH DC MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		10 A	1	BCDMOS	THROUGH-HOLE	24 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-30 Cel		ZIG-ZAG	R-PZIP-T25	42 V	19.37 mm	4.5 mm		8 V					28.8 mm
TB6549HQ	Toshiba	BRUSH DC MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	UNSPECIFIED	10 mA	5 A	1	BICMOS	THROUGH-HOLE	24 V	24	IN-LINE, SHRINK PITCH	ZIP25,.16,.16,40	Motion Control Electronics	1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-XZIP-T25	30 V	15.7 mm	4.6 mm	Not Qualified	10 V			NOT SPECIFIED	NOT SPECIFIED	28.8 mm
STK672-442AN-E	Onsemi	STEPPER MOTOR CONTROLLER		19	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		20 A	1	HYBRID	THROUGH-HOLE	5 V		IN-LINE, SHRINK PITCH			1 mm			MATTE TIN	ZIG-ZAG	R-PZIP-T19	5.25 V		4.5 mm		4.75 V	ALSO OPERATES WITH THE RANGE OF 0V TO 42V SUPPLY	e3			24.2 mm
TB62213AHQ	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		3 A	1	BCDMOS	THROUGH-HOLE	5 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-PZIP-T25	5.25 V	19.37 mm	4.5 mm		4.75 V					28.8 mm
TB67H302HG	Toshiba	BRUSHLESS DC MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		5 A	1	BCDMOS	THROUGH-HOLE	24 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-30 Cel		ZIG-ZAG	R-PZIP-T25	42 V	19.37 mm	4.5 mm		8 V					28.8 mm
TB67S141HG	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		3 A	1	BCDMOS	THROUGH-HOLE	5 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-PZIP-T25	5.25 V	19.37 mm	4.5 mm		4.75 V			NOT SPECIFIED	NOT SPECIFIED	28.8 mm
TB67S149HG	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		3 A	1	BCDMOS	THROUGH-HOLE	5 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-PZIP-T25	5.25 V	19.37 mm	4.5 mm		4.75 V			NOT SPECIFIED	NOT SPECIFIED	28.8 mm
TB67S142HG	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		3 A	1	BCDMOS	THROUGH-HOLE	5 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-PZIP-T25	5.25 V	19.37 mm	4.5 mm		4.75 V			NOT SPECIFIED	NOT SPECIFIED	28.8 mm
TB62215AHQ,8	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY	.075 mA	3 A	1	BCD	THROUGH-HOLE			IN-LINE, SHRINK PITCH			1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-PZIP-T25	5.5 V	19.37 mm	4.5 mm		0 V	ALSO NEED MOTOR SUPPLY VOLTAGE 10 TO 38V				28.8 mm
TB62215AHQ	Toshiba	STEPPER MOTOR CONTROLLER	OTHER	25	SZIP	RECTANGULAR	NO	PLASTIC/EPOXY		3 A	1	BCDMOS	THROUGH-HOLE	5 V		IN-LINE, SHRINK PITCH			1 mm	85 Cel	-20 Cel		ZIG-ZAG	R-PZIP-T25	5.25 V	19.37 mm	4.5 mm		4.75 V					28.8 mm

Motion Control ICs

Motion control ICs are electronic components designed to control and regulate the movement of mechanical systems. They are used in a wide range of applications, including robotics, manufacturing equipment, and aerospace systems.

Motion control ICs use various technologies to control motion, including microcontrollers, motor drivers, and sensors. They can be used to control the speed, position, and direction of motors, actuators, and other mechanical systems.

One of the main applications of motion control ICs is in robotics, where they are used to control the movement of robot arms, legs, and other components. They can also be used in manufacturing equipment to control the movement of conveyor belts, assembly lines, and other machinery.

Motion control ICs can provide high levels of precision and accuracy in controlling motion. They are often designed to operate in harsh environments and can withstand high temperatures, vibration, and shock.