The Benefits That PFR-100 Power Supply Can Provide in Burn-in Test

GW Instek PFR-100 Power Supply

Burin-in is one of many common methods manufacturers utilize to sort out defective components and products during
the testing process of the electronic products. Burn-in test is normally conducted in the factory before shipment and
after products are completely assembled. Burn-in process helps manufacturers sieve out defective components so as to
prevent defective products from being sold to customers. Burn-in test requires additional space for power supplies and
its power consumption for a long period of time will increase energy demand and electric bill. Burn-in test is a tremendous
cost challenge to all manufacturers in terms of space, electric power and man power.

To tackle this cost challenge, GW Instek PFR series can easily assist manufacturers in solving all difficult problems.

- With respect to space, the PFR series provides better space flexibility in the limited test area by its 3U height
     (H:124/W:70/D:300 mm) and as light as a total weight of 2.5kg.

- Pertaining to power saving, the PFR series, a high-efficiency power conversion power supply, adopts high-efficiency
     PWM design comparing with low-efficiency linear power supplies. Hence, the PFR series is capable of saving electricity
     during long-time burn-in test. Comparing the same 100W output power supplies, the PFR series requires 143W of input
     power, while the linear power supplies with 0.5 efficiency require 200W of input power. After a full year of burn-in test,
     the PFR series will consume 1235 kWh and the linear power supplies will consume 1728kWh. For three years of burn-in
     test, the PFR series only consumes 3703kWh and linear power supplies consume 5184kWh.

- The PFR series is a five-fold multi-range power supply, which allows users to arbitrarily adjust voltage and current within
     the rated power. This function allows users to adjust the voltage and current settings according to the maximum output power.
     Compared with the conventional 100W power supplies with maximum output 20V/5A, the 100W PFR-100L provides a
     maximum output of 50V@2A or 10V@10A, and the PFR-100M provides an output of up to 250V/0.4A or 50V/2A.



Description PFR-100 | Terminal Elektronika Sekawan

                             Voltage/Current Operating Area
 

 

- In terms of personnel operation, the Test Script function of PFR series edits sequential power outputs based upon customer’s
     burn-in test process and executes automatically during the burn-in procedures. Additionally, the built-in USB, RS- 232/485
     communications of the PFR series allow testing personnel to remotely control or execute self-defined programs to realize
     automated tests and reduce manpower investment during burn-in process.

- For power supplies connected to the inside of the Chamber, the phenomenon of voltage drop is often happened due to the
     long wiring. The PFR series provides the Remote Sense function to compensate the voltage drop so as to ensure an accurate
     voltage output to the DUT. The operator does not need to adjust voltage for voltage drop.

- Conventional power supplies produce fan noise while in operation. Power supplies with fan design will absorb dust in the fan
     filter during long-term operation. The accumulated dust may affect the air circulation inside the power supply. Poor air circulation
     inside the power supply will cause the internal components of the power supply to function under a high-temperature environment.
     The components that work in the high-temperature environment for a long time will shorten the life cycle of the power supply.
     The fanless PFR series without fan noise is suitable for a quiet working environment, furthermore, fanless design is ideal for clean
     and quiet test environment (e.g. clean room). The fanless PFR series can prolong its life cycle during burn-in test.

 

 

Description PFR-100 | Terminal Elektronika Sekawan
                                            Schematic diagram for burn-in test

 
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