ominal Line Input Full Load.


1.6 Input Leakage Current --- Leakage Current From Line to Ground
Will Be Less 3.5mA rms. Measurement Will Be Made At 240Vac/60Hz.

2. Output Characteristics:

2.1 Static Output Characteristics.

Output
Voltage
Load Range
Min. Max.
Regulation
Min. Max.
Ripple Max
mV P-P
Ripple & Noise
Max. mV P-P


1.
+3.3 V
0.3 A
27.0 A

- 5 %
+ 5 %
50 mV
100 mV


2.
+5.0 V
2.0 A
28.0 A

- 5 %
+ 5 %
50 mV
100 mV


3.
+12.0 V
0.5 A
24.0 A

- 5 %
+ 5 %
100 mV
150 mV


4.
-12.0 V
0.0 A
1.0 A

- 10 %
+ 10 %
150 mV
200 mV


5.
+24.0 V
0.0 A
6.0 A

- 5 %
+ 5 %
240 mV
240 mV


6. SB +5.0 V
0.0 A
2.0 A

- 5 %
+ 5 %
100 mV
100 mV


Note:
1. Noise Test --- Noise Bandwidth Is From Dc To 20MHz.

2. Ripple Frequencies Greater Than 1 MHz Shall Be Attenuated By the
Measurement System.

3. Add 0.1uF / 10uF Capacitor At Output Connector Terminals For Ripple &
Noise Measurements.

4. Combined Total Current From +3.3V And +5V Rails Shall Not Exceed 38A.

5. The Total Output Power Shall Not Exceed 400W.

2.2 Dynamic Output Characteristics:

2.2.1 Initial Delay Time --- NONE.

2.2.2 Rise Time --- 50 mS Max. At Nominal Line Full Load.
2.2.3 Turn-on Delay Time --- 600mS Max. At Nominal Line Full Load.

2.2.4 Hold-up Time --- 16mS min. For + 5V Output At Nominal Line Full Load.

2.2.5 Transient Overshoot --- 10% Max. Of Delay State After Load Change Of 25%
Within The Range Of 50% To 100% Of Full Load.

2.2.6 Temperature Coefficient --- 0.03% Per
°
C
Max.

3. Protections:

3.1 Over Voltage Protection --- Standard On +3.3V Output Set At 3.7Vdc 4.5Vdc.
+5.0V Output Set At 5.7Vdc 6.5Vdc.
+12.0V Output Set At 13.5Vdc 14.5Vdc.

3.2 Short Circuit Protection --- A Short Circuit Placed Between DC Return And Output
Shall Cause No Damage And The Power Supply Shall
Shutdown.

3.3 Over Power Protection --- The Power Supply Can Use Electronic Circuit To Limit
The Output. Power Against Excessing +120% - 170% Of Full Load. Or Protected
against Excessive Power Delivery Due To Short Circuit Of Any Output Or Over
Total Power.

3.4 No load Operation --- No Parts Damaged On Power Supply.

4. Dielectric Withstand Voltage:

4.1 Primary to Secondary -------- 1500Vac For 1 Minute. Or 2200Vdc For 3 Sec.

4.2 Primary to Safety Ground --- 1500Vac For 1 Minute. Or 2200Vdc For 3 Sec.

4.3 Insulation Resistance --------- Primary To Safety Ground - 500Vdc, 100M ohms Min.

5. Conducted EMI: Internal Filter Can Meet.

5.1 FCC Requirement --- Part15, SUB-Part J, Computing Devices Class A Limits.

5.2 VDE Requirement --- Class A ( General Operating Permit ) Requirements Of
VFG 234/1991.
5.3 CISPR Requirement --- Class A Requirements Of CLSPR 22.

5.4 Harmonic Requirement --- IEC10000-3-2 & IEC10000-3-3 Class D.


6. Product Safety:
This Power Supply Is Designed Can Meet The Following Spec.
6.1 UL/CUL -------------------- UL60950

6.2 TUV ------------------------- EN 60950

7. Environment:

7.1 Operation Temperature --------------- Air Temperature 0
°
C
To 50
°
C.

7.2 Operation Relative Humidity -------- 20% To 90%.


7.3 Storage Temperature ------------------ Air Temperature -20
°
C
To 60
°
C.

7.4 Storage Relative Humidity ----------- 5% To 95%.


7.5 Altitude ------------------------------------- Operate Properly At Any Altitude Between
0 To 100,000 Feet. Storage 40,000 Feet.

7.6 Vibration ----------------------------------- 0.38mm. 5-55-5Hz, 1 Minutes Per Cycle;
30 Minutes For Each Axis ( X,Y,Z ).

8. Burn-In

8.1 Burn-In ------------------------------------- At 45
°
C, Max. Load, 4 Hours.

9. Mean Time Between Failure
------ 100 KHrs Minimum At 75% Load For
25
°
C Ambient Temperature.

10. Power-Good Signal:


+4.75V


+4.75V

Ts ->

+5V Output








Power Good Signal







<- Tr ->
Td ->
->
T1 <-


Note: Tr 100 ms, T1 1 ms, Td = 100 500 ms.

11. Dimension

11.1 W x H x D --------------------------------------- 80.0 x 40.0 x 233.0( mm )
STD
A
1of1
1:2
D:\
CP-05040
CLAYPOWER COMPANY