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VIPER50SP Datasheet(PDF) 3 Page - STMicroelectronics |
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VIPER50SP Datasheet(HTML) 3 Page - STMicroelectronics |
3 / 23 page VIPer50/SP - VIPer50A/ASP 3/23 ORDERING NUMBERS PINS FUNCTIONAL DESCRIPTION DRAIN PIN: Integrated Power MOSFET drain pin. It provides internal bias current during start-up via an integrated high voltage current source which is switched off during normal operation. The device is able to handle an unclamped current during its normal operation, assuring self protection against voltage surges, PCB stray inductance, and allowing a snubberless operation for low output power. SOURCE Pin: Power MOSFET source pin. Primary side circuit common ground connection. VDD Pin: This pin provides two functions: - It corresponds to the low voltage supply of the control part of the circuit. If VDD goes below 8V, the start-up current source is activated and the output power MOSFET is switched off until the VDD voltage reaches 11V. During this phase, the internal current consumption is reduced, the VDD pin sources a current of about 2mA and the COMP pin is shorted to ground. After that, the current source is shut down, and the device tries to start up by switching again. - This pin is also connected to the error amplifier, in order to allow primary as well as secondary regulation configurations. In case of primary regulation, an internal 13V trimmed reference voltage is used to maintain VDD at 13V. For secondary regulation, a voltage between 8.5V and 12.5V will be put on VDD pin by transformer design, in order to stick the output of the transconductance amplifier to the high state. The COMP pin behaves as a constant current source, and can easily be connected to the output of an optocoupler. Note that any overvoltage due to regulation loop failure is still detected by the error amplifier through the VDD voltage, which cannot overpass 13V. The output voltage will be somewhat higher than the nominal one, but still under control. COMP PIN: This pin provides two functions: - It is the output of the error transconductance amplifier, and allows for the connection of a compensation network to provide the desired transfer function of the regulation loop. Its bandwidth can easily be adjusted to the needed value with usual components value. As stated above, secondary regulation configurations are also implemented through the COMP pin. - When the COMP voltage goes below 0.5V, the shut-down of the circuit occurs, with a zero duty cycle for the power MOSFET. This feature can be used to switch off the converter, and is automatically activated by the regulation loop (whatever is the configuration) to provide a burst mode operation in case of negligible output power or open load condition. OSC PIN: An Rt-Ct network must be connected on that pin to define the switching frequency. Note that despite the connection of Rt to VDD, no significant frequency change occurs for VDD varying from 8V to 15V. It also provides a synchronization capability, when connected to an external frequency source. PENTAWATT HV PENTAWATT HV (022Y) PowerSO-10™ VIPer50 VIPer50 (022Y) VIPer50SP VIPer50A VIPer50A (022Y) VIPer50ASP 1 |
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