Introduction:
All-discrete topology.
Single-pass, series regulator design. No IC (integrated circuits) are used. This allows complete design control over all operating points and parameters for superior performance. Low noise, high PSRR.
Use of EMI filters, this version is mainly used in PC class, sustained peak 10A (1 hour), Continuous operating current should not exceed 7X24H 7A (depending on the ambient temperature may be) the main consideration cooling efficiency.
A constant-current source feeds a zener diode as a stable voltage reference. A low-pass filter (with a corner frequency of 1.6Hz) prevents zener noise from being introduced into the error amplifier. This is an effective yet lower-cost alternative to expensive voltage reference ICs. The low-pass filter also provides a soft-start characteristic.
The output noise (unloaded) is less than 13µV at 24VDC output (measured using a Tangent LNMP (low-noise measurement preamplifier) and a Fluke
187 50000-count DMM in ACmV mode). The output noise is even less when the output voltage is lower. This is much better than the noise of an IC regulator based PSU tested under identical conditions.
The error amplifier is a discrete implementation of an opamp with a high open-loop gain of 102.5dB. The voltage supply to the error amplifier is isolated with capacitance multipliers to boost its PSRR (power supply rejection ratio). This greatly improves the line regulation performance of the PSU.
A long-tailed pair differential amplifier with current mirror and constant current source forms the first stage of the error amplifier. The second stage is the voltage amplification stage (VAS), also with constant current source load. The 3rd stage is comprised of the ower MOSFET output devices configured as a source follower.
High-current MOSFET pass transistors, Two paralleled high-current, highly reliable MOSFETs (rated at 18A each) serve as the "pass" transistor. The high current rating provides a very high safety headroom against overcurrent damage.
The use of paralleled MOSFETs divides the heat dissipation, simplifying thermal management. Onboard heatsinks can be used which would allow the this PSU to supply up to 1A continuous (with much higher peak currents). More sustained currents are possible by using larger, offboard heatsinks.
The negative temperature coefficient of MOSFETs prevents damaging thermal-runaway conditions that may plague conventional BJT devices, No current-limiting.
Main purpose:
◆ Upgrade XMOS CM6631 TE8802L etc. USB interface DC power supply
◆ Various DC5V power supply set-top boxes, routers and other digital devices
◆ A variety of USB-powered digital equipment, charging your mobile phone
◆ A variety of digital devices such as amp/ DAC/HIFI audio player
Input voltage: AC 115V or 230V (Optional)
Output voltage: We have the following DC output voltage / Current (optional)
● DC 5V /10A
● DC 9V /10A
● DC 12V /10A
● DC 15V /8A
● DC 18V /8A
● DC 19V /7A
● DC 24V /5A
Size: Width 212mm * High 90mm * Heep 257mm
Transformer Power : 200VA
Weight: About 6.5kg
GX16-2 PIN Plug Polarity: "1+", "2-"
DC Plug Polarity: Internal"+", External"-"
DC Plug size: Outer diameter 5.5mm, Internal diameter 2.1mm (If you need other size DC plug, Please contact us)
Package include:
SUPER-PSU 200W Linear Power supply X 1
1.2M (5.5*2.1mm) output DC cable X 1
NOTE: Default is not include the AC input cable.
