1000V Output, No-Opto, Isolated Flyback Converter for High Output Voltage Applications


George Qian, Senior Engineer at Analog Devices, Inc.
Michael Wu, Product Applications Engineer at Analog Devices, Inc.

Isolated flyback converters are used in automotive, industrial, medical, and telecom applications where the power supply must be reliable, easy to use, high voltage, and isolated, and they must provide excellent regulation over load, line, and temperature. LT8304-1 is an isolated, no-opto flyback converter optimized for high output voltage applications that provides outputs up to 1000 V.


Traditionally, the regulation feedback loop requires a bulky high voltage divider to directly sense the high output voltage, along with optocouplers to convey feedback information back through the isolation barrier. The bulky resistor solution results because a 1206 resistor can handle 200 V maximum. So to sense 1000 V, at least six 1206 resistors are required, plus a small bottom resistor.

 

1000 V/15 mA Output, from a 4 V to 28 V Input 

An LT8304-1 flyback converter design features a low component count. Figure 1 shows a complete 4 V to 28 V input to 1000 V output solution capable of supporting 15 mA loads. The output current capability increases with input voltage, reaching 13 mA when the input volt-age is greater than 24 V. The LT8304-1’s ability to sense the output voltage through the primary side waveform eliminates the need for a bulky high voltage divider, and no optocoupler is required.

 

Figure 1: A complete 1000 V/15 mA isolated flyback converter from a 4 V to 28 V input.

Figure 1: A complete 1000 V/15 mA isolated flyback converter from a 4 V to 28 V input.

 

Figure 2: Efficiency of Figure 1 at various input voltages.
Figure 2: Efficiency of Figure 1 at various input voltages.

 

The guidelines for calculating voltage and current stress on the components surrounding the LT8304-1 are detailed in the LT8304-1 data sheet. Notably, this 1000 V solution uses a transformer with three split-output windings on the secondary side. The primary side to secondary side turn ratio is 1:10:10:10, instead of a single-secondary winding 1:30 transformer.

The 1:10:10:10 transformer enables the output voltage stress to be split among three high voltage output diodes and three high voltage output capacitors. Individual component voltage ratings need only be 1⁄3 of the total voltage, which facilitates more options for output diode and output capacitor selection. Figure 2 shows this flyback converter reach-ing 90.5% peak efficiency. Even with no optocoupler, load regulation at various input voltages remains tight, typically 2% to 3%, as shown in Figure 3.

 

Figure 3: Load regulation of Figure 1 at various input voltages.

Figure 3: Load regulation of Figure 1 at various input voltages.

 

800 V/10 mA Output, from 4 V to 18 V Input

Figure 4 shows a complete 4 V to 18 V input to 800 V output solution capable of providing up to 10 mA output current. This flyback converter achieves 88.2% peak efficiency when the input is 18 V and the load current is 10 mA. Figure 5 shows the efficiency curve at various input voltages; Figure 6 shows the excellent load regulation. This solution also features a low component count.

 

Figure 4: A complete 800 V/10 mA isolated flyback converter from a 4 V to 18 V input.

Figure 4: A complete 800 V/10 mA isolated flyback converter from a 4 V to 18 V input.

 

Figure 5: Efficiency of the solution in Figure 4 at various input voltages.

Figure 5: Efficiency of the solution in Figure 4 at various input voltages.

 

Figure 6: Load regulation of the solution in Figure 4 at various input voltages.
Figure 6: Load regulation of the solution in Figure 4 at various input voltages.

 

Conclusion

The LT8304-1 is an easy to use monolithic micropower isolated flyback converter optimized for high output voltage applications. By sampling the isolated output voltage directly from the primary side flyback waveform, complete solutions maintain tight regulation—requiring neither an output voltage divider nor an opto-isolator.

The output voltage is simply programmed with two external resistors and a third optional temperature compensation resistor. Boundary mode operation enables a small magnetic solution with excellent load regulation. A 2 A, 150 V DMOS power switch is integrated, along with all the high voltage circuitry and control logic, in a thermally enhanced 8-lead SO package. The LT8304-1 operates at an input voltage range of 3 V to 100 V, and delivers up to 24 W of isolated output power.

 

About the Authors

Zhijun (George) Qian is a senior engineer at Analog Devices, Inc. He is responsible for power products applications of various nonisolated and isolated converters. He obtained his B.S and M.S. from Zhejiang University, and his Ph.D. from University of Central Florida, all in power electronics. He joined Linear Technology (now part of ADI) in 2010. He can be reached at: [email protected]

Michael Wu is a product applications engineer at Analog Devices, Inc. He works in the Power Group focusing on isolated and nonisolated dc-to-dc converters. He studied electrical engineering at California Polytechnic State University, San Luis Obispo (B.S and M.S). He can be reached at:[email protected]

 

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This article features Analog Devices, Inc. (ADI) LT8304-1 monolithic micropower isolated flyback converter with 1000V Output and require no opto-isolator.

More information: Analog Devices, Inc.  •  Analog Devices, Inc.    Source: Bodo's Power Systems, April 2019