QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 759 48VIN TO 5VOUT, 20A ISOLATED TELECOM DC/DC CONVERTER LT1952 DESCRIPTION Demonstration circuit 759 is an isolated input to high The DC759 circuit features soft-start which prevents current output converter featuring the LT 1952 output voltage overshoot on startup or when recover- switching controller. The DC759 converts isolated ing from overload condition. 36V to 75V input to 5V output and provides over 20A The DC759 has a precise over-current protection cir- of output current. The converter operates at 300kHz cuit that allows for continuous operation under short with high efficiency of 92%. The DC759 can be easily circuit conditions. The low power dissipation under modified to generate output voltages in the range short circuit conditions insures high reliability even from 1.23V to 28V. The output currents are limited by during short circuits. total output power of up to 140W. The LT1952 can be synchronized to an external clock Demonstration circuit 759 can generate output cur- of up to 400kHz. Please refer to the LT1952 data rents as high as 30A with some modifications. The sheet for design details and applications information. output voltage can also be changed to any value be- Design files for this circuit board are available. Call tween 1.23V and 28V by changing the MOSFETs, the LTC factory. power transformer, output inductor and output ca- pacitors. Please consult LTC factory for details. LT is a trademark of Linear Technology Corporation Table 1. Performance Summary PARAMETER CONDITION VALUE Minimum Input Voltage 36V Maximum Input Voltage 75V V V = 36V to 72V, I = 0A to 20A 5V 3% OUT IN OUT Typical Output Ripple V V = 36V to 72V, I = 0A to 20A 50mV OUT IN OUT PP Nominal Switching Frequency 300kHz QUICK START PROCEDURE Demonstration circuit 759 is easy to set up to evaluate 1. With power off, connect the input power supply to the performance of the LT1952. Refer to Figure 1. for +Vin and -Vin. Make sure that the input power sup- proper measurement equipment setup and follow the ply has sufficient current rating at minimum input procedure below: voltage for the required output load. NOTE: When measuring the input or output voltage rip- 2. Turn on the power at the input. ple, care must be taken to avoid a long ground lead on NOTE: Make sure that the input voltage does not ex- the oscilloscope probe. Measure the input or output ceed 75V. voltage ripple by touching the probe tip directly across 3. Check for the proper output voltage. the Vin or Vout and GND terminals. See Figure 2. for Vout = 5V. proper scope probe technique. 1 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 759 48VIN TO 5VOUT, 20A ISOLATED TELECOM DC/DC CONVERTER If there is no output, temporarily disconnect the load to make sure that the load is not set too high. 4. Once the proper output voltage is established, ad- just the load within the operating range and observe the output voltage regulation, ripple voltage, effi- ciency and other parameters. 5. The DC759 is equipped with an output capacitor CSYS (470uF) that approximates typical system rail capacitance. If system board already has capaci- tance of similar value, CSYS can be removed. CHANGING THE OUTPUT VOLTAGE 1. To set the output voltage lower than 5V, change the bottom voltage divider resistor connected to LTC1698 Vfb pin (R31). For example, to get 3.3V output, change R31 resistor value to 22.6k. 2. To get higher than 5V output voltages a transformer with higher turns ratio will be required. Also, an output MOSFET with higher voltage ratings may be required. Please contact LTC factory for details. OUTPUT CAPACITORS The DC759 is equipped with an output capacitor CSYS (470uF) that approximates typical system rail ca- pacitance USING MOSFET BUFFERS The optional MOSFET buffer Q7 can improve the effi- ciency if a MOSFET with high Qg is used. By default, the MOSFET buffer is disabled. To test the perform- ance with the buffer, perform the following steps. 1. Turn the power off. 2. Change the base-emitter resistor R33 to 10ohm. 3. Turn the power on. 4. Measure the efficiency. 2