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MAX5020CSA Datasheet(PDF) 10 Page - Maxim Integrated Products |
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MAX5020CSA Datasheet(HTML) 10 Page - Maxim Integrated Products |
10 / 14 page pass filter (Figures 2, 3). Select the current-sense resis- tor, RSENSE according to the following equation: where ILimPrimary is the maximum peak primary-side current. When VCS > 465mV, the power MOSFET switches off. The propagation delay from the time the switch current reaches the trip level to the driver turn-off time is 180ns. Internal Error Amplifier The MAX5019/MAX5020 include an internal error ampli- fier that can be used to regulate the output voltage in the case of a nonisolated power supply (see Figure 2). Calculate the output voltage using the following equa- tion: where VREF = 2.4V. Choose R1//R2 << RIN, where RIN, ≅ 50kΩ is the input resistance of FB. The gain of the error amplifier is inter- nally configured for -20 (see Figure 1). The error amplifier may also be used to regulate the out- put of the tertiary winding for implementing a primary- side regulated isolated power supply (see Figure 4). Calculate the output voltage using the following equation: where NS is the number of secondary turns and NT is the number of tertiary winding turns. PWM Comparator and Slope Compensation An internal 275kHz oscillator determines the switching frequency of the controller. At the beginning of each cycle, NDRV switches the N-channel MOSFET on. NDRV switches the external MOSFET off after the maxi- mum duty cycle has been reached, regardless of the feedback. The MAX5019 uses an internal ramp generator for slope compensation. The internal ramp signal is reset at the beginning of each cycle and slews at 26mV/µs. The PWM comparator uses the instantaneous current, the error voltage, the internal reference, and the slope compensation (MAX5019 only) to determine when to switch the N-channel MOSFET off. In normal operation the N-channel MOSFET turns off when: where IPRIMARY is the current through the N-channel MOSFET, VREF is the 2.4V internal reference, VEA is the output voltage of the internal amplifier, and VSCOMP is a ramp function starting at 0 and slewing at 26mV/µs (MAX5019 only). When using the MAX5019 in a for- ward-converter configuration the following condition must be met to avoid control-loop subharmonic oscilla- tions: where k = 0.75 to 1, and NS and NP are the number of turns on the secondary and primary side of the trans- former, respectively. L is the output filter inductor. This makes the output inductor current downslope as refer- enced across RSENSE equal to the slope compensa- tion. The controller responds to transients within one cycle when this condition is met. N-Channel MOSFET Gate Driver NDRV drives an N-channel MOSFET. NDRV sources and sinks large transient currents to charge and dis- charge the MOSFET gate. To support such switching transients, bypass VCC with a ceramic capacitor. The average current as a result of switching the MOSFET is the product of the total gate charge and the operating frequency. It is this current plus the DC quiescent cur- rent that determines the total operating current. Applications Information Design Example The following is a general procedure for designing a forward converter using the MAX5020. 1) Determine the requirements. 2) Set the output voltage. 3) Calculate the transformer primary to secondary winding turns ratio. 4) Calculate the reset to primary winding turns ratio. 5) Calculate the tertiary to primary winding turns ratio. 6) Calculate the current-sense resistor value. 7) Calculate the output inductor value. 8) Select the output capacitor. The circuit in Figure 2 was designed as follows: N N kR V S P SENSE OUT × ×× =µ L mV s 26 / IR V - V - V PRIMARY SENSE EA REF SCOMP ×> V N N R R V OUT S T 1 2 REF =+ × 1 V R R V OUT 1 2 REF =+ × 1 RI SENSE LimPrimary = 0 465 ./ V Current-Mode PWM Controllers with Integrated Startup Circuit 10 ______________________________________________________________________________________ |
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