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C2012C0G1H221J Datasheet(PDF) 7 Page - Texas Instruments |
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C2012C0G1H221J Datasheet(HTML) 7 Page - Texas Instruments |
7 / 17 page LM5020 www.ti.com SNVS275F – MAY 2004 – REVISED APRIL 2006 DETAILED OPERATING DESCRIPTION The LM5020 High Voltage PWM controller contains all of the features needed to implement single ended primary power converter topologies. The LM5020 includes a high-voltage startup regulator that operates over a wide input range to 100V. The PWM controller is designed for high speed capability including an oscillator frequency range to 1MHz and total propagation delays less than 100ns. Additional features include an error amplifier, precision reference, line under-voltage lockout, cycle-by-cycle current limit, slope compensation, softstart, oscillator sync capability and thermal shutdown. The functional block diagram of the LM5020 is shown in Figure 1. The LM5020 is designed for current-mode control power converters, which require a single drive output, such as Flyback and Forward topologies. The LM5020 provides all of the advantages of current-mode control including line feed-forward, cycle-by-cycle current limiting and simplified loop compensation . High Voltage Start-Up Regulator The LM5020 contains an internal high voltage startup regulator, that allows the input pin (Vin) to be connected directly to line voltages as high as 100V. The regulator output is internally current limited to 15mA. When power is applied, the regulator is enabled and sources current into an external capacitor connected to the VCC pin. The recommended capacitance range for the Vcc regulator is 0.1µF to 100µF. When the voltage on the VCC pin reaches the regulation level of 7.7V, the controller output is enabled. The controller will remain enabled until VCC falls below 6V. In typical applications, a transformer auxiliary winding is connected through a diode to the VCC pin. This winding should raise the VCC voltage above 8V to shut off the internal startup regulator. Powering VCC from an auxiliary winding improves conversion efficiency while reducing the power dissipated in the controller. The external VCC capacitor must be selected such that the capacitor maintains the Vcc voltage greater than the VCC UVLO falling threshold (6V) during the initial start-up. During a fault condition when the converter auxiliary winding is inactive, external current draw on the VCC line should be limited such that the power dissipated in the start-up regulator does not exceed the maximum power dissipation capability of the controller. An external start-up or other bias rail can be used instead of the internal start-up regulator by connecting the VCC and the Vin pins together and feeding the external bias voltage (8-15V) to the two pins. Line Under Voltage Detector The LM5020 contains a line Under Voltage Lock Out (UVLO) circuit. An external set-point voltage divider from Vin to GND sets the operational range of the converter. The resistor divider must be designed such that the voltage at the UVLO pin is greater than 1.25V when Vin is in the desired operating range. If the under voltage threshold is not met, all functions of the controller are disabled and the controller remains in a low power standby state. UVLO hysteresis is accomplished with an internal 20µA current source that is switched on or off into the impedance of the set-point divider. When the UVLO threshold is exceeded, the current source is activated to instantly raise the voltage at the UVLO pin. When the UVLO pin voltage falls below the 1.25V threshold the current source is turned off, causing the voltage at the UVLO pin to fall. The UVLO pin can also be used to implement a remote enable / disable function. If an external transistor pulls the UVLO pin below the 1.25V threshold, the converter is disabled. Error Amplifier An internal high gain error amplifier is provided within the LM5020. The amplifier's non-inverting input is internally set to a fixed reference voltage of 1.25V. The inverting input is connected to the FB pin. In non-isolated applications, the power converter output is connected to the FB pin via voltage scaling resistors. Loop compensation components are connected between the COMP and FB pins. For most isolated applications the error amplifier function is implemented on the secondary side of the converter and the internal error amplifier is not used. The internal error amplifier is configured as an open drain output and can be disabled by connecting the FB pin to ground. An internal 5K pull-up resistor between a 5V reference and COMP can be used as the pull- up for an optocoupler in isolated applications. Copyright © 2004–2006, Texas Instruments Incorporated Submit Documentation Feedback 7 Product Folder Links: LM5020 |
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