Your circuit will be able to control PWM signals at the inputs using the UC1524AJ voltage mode PWM controller, developed by Texas Instruments. With an output that has a voltage of 60 V, this is power management at its best. Its 2 PWM outputs produce a current of 200(Max) mA. This voltage mode driver supports boost|flyback|forward|full-bridge|half-bridge|push-pull topology. You can operate this at a switching frequency of 500(Min) kHz. In order to ensure parts aren"t damaged by bulk packaging, this product comes in tube packaging to add a little more protection by storing the loose parts in an outer tube. This voltage mode driver"s maximum duty cycle is 45(Min) %. This voltage mode driver has an operating temperature range of -55 °C to 125 °C. This device has a minimum operating supply voltage of 8 V and a maximum of 40 V.
Are you in search of a pulse-width modulation controller? Look no further than Texas Instruments" UC1524AJ883B voltage mode PWM controller. With an output that has a voltage of 60 V, this is power management at its best. Its 2 PWM outputs produce a current of 200(Max) mA. This voltage mode driver supports boost|flyback|forward|full-bridge|half-bridge|push-pull topology. You can operate this at a switching frequency of 500(Min) kHz. In order to ensure parts aren"t damaged by bulk packaging, this product comes in tube packaging to add a little more protection by storing the loose parts in an outer tube. This voltage mode driver"s maximum duty cycle is 45(Min) %. This voltage mode driver has a minimum operating temperature of -55 °C and a maximum of 125 °C. This device has a minimum operating supply voltage of 8 V and a maximum of 40 V.
The SG3524N is a Regulating Pulse-Width Modulator incorporates all the functions required in the construction of a regulating power supply, inverter or switching regulator on a single chip. They also can be used as the control element for high-power-output applications. The SG3524N designed for switching regulators of either polarity, transformer-coupled DC-to-DC converters, transformer less voltage doublers and polarity-converter applications employing fixed-frequency, pulse-width modulation (PWM) techniques. The complementary output allows either single-ended or push-pull application. Each device includes an on-chip regulator, error amplifier, programmable oscillator, pulse-steering flip-flop, two uncommitted pass transistors, a high-gain comparator and current-limiting and shutdown circuitry.