KEPCO HSF 12-53A Operator'S Manual Download Page 7

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HSF(A) 600W 040215

Withstanding voltage: (at 15-
35°C ambient, 10-85% relative
humidity)

2500Va-c for 1 minute. Cutout current is
20mA

Between input and ground

500Va-c for 1 minute. Cutout current is
100mA

Between output and ground

6000Va-c for 1 minute. Cutout current is
20mA

Between input and output terminal

Insulation Resistance: (at
25°C, 65% relative humidity)

100 Megohms minimum (500Vdc)

Between output and ground, input and ground, and
input and output,

Humidity:

Operating: 10% to 90% relative humidity
Non-operating: 10% to 95% relative humidity

Noncondensing,
Wet Bulb temperature <35°C

Vibration:

5-10 Hz., 10mm amplitude, 10-55 Hz., accel-
eration 64.3ft./s

(19.6M/s

) (2g)

Non-operating 1 hr. on each of 3 axes, sweep time
10 minutes

Shock: Acceleration:

643.5ft./s

(196.1M/s

) (20g),

Pulse Duration: 11ms ± 5 msec

Non-operating, 1/2 sine pulse, three shocks on each
axis, Power Supply is fixed on its bottom side

Safety:

Recognized component per UL 60950-1
(U.S. and Canadian), CE Mark (RoHS ver-
sions)

Applies when input voltage is: 100-240V a-c,
50-60Hz, ambient temperature 40°C max.

RoHS Compliance

RoHS versions available; contact Kepco Sales for further information.

EMC Emission - Conducted:

Designed to meet FCC Class B, VCCI-Class B, EN55011-B, EN55022-B

EMC Emission - Radiated:

Designed to meet FCC Class B, VCCI-Class B, EN55011-B, EN55022-B

EMC - Power Factor Harmonic
Current (PFHC)

Designed to meet EN61000-3-2

EMC Immunity

Designed to meet EN61000-6-2

EMC Radiated susceptibility:

Designed to meet EN61000-4-3 level 3

normal operation

EMC Conducted susceptibility: Designed to meet EN61000-4-6 level 3

normal operation

ESD:

EN61000-4-2, level 3

normal operation

Electrical fast transient burst:

EN61000-4-4 level 3

normal operation

Surge withstand:

EN61000-4-5, level 3

No damage

Power Frequency Magnetic
Field:

Designed to meet EN61000-4-8, level 4

normal operation

Voltage dips interruptions and
variations

EN61000-4-11

normal operation

Semi F47

200V a-c only

Dimensions:

5.22 in. (132.5 mm) x 4.288 in. (108.9 mm) x 16.86 in. (428.2 mm) (See Figure 3)

Mounting: Plug-in

Cooling:

Forced air flow - fan

Frame Material/Cover
Material:

Steel

Weight

7.2 lbs, 3.3Kgs. maximum

TABLE 3. POWER SUPPLY RATINGS AND SPECIFICATIONS (CONTINUED)

CHARACTERISTIC

SPECIFICATION

CONDITION/NOTES

Summary of Contents for HSF 12-53A

Page 1: ...el and serial number 3 The contents of this manual are protected by copyright Reproduction of any part can be made only with the specific written permission of Kepco Inc Data subject to change without...

Page 2: ...g Latches 15 4 Load Connection 16 5 Connecting Multiple Power Supplies 16 1 HSF A AM Rear Panel Connector and RA 19 4C Rack Adapter I O Connector 1 2 Power Rating Vs Temperature 3 3 Mechanical Outline...

Page 3: ...of 12V 15V 24V 28V or 48V They employ forward con version and power factor correction and are designed to operate in a fault tolerant power system Input voltage range is single phase 85 265V a c 47 63...

Page 4: ...see PAR 3 7 2 1 REF 15 Reference voltage When used with RV pin 18 allows all output voltages of paralleled slave supplies to be controlled by one voltage adjustment of a master power supply When REF...

Page 5: ...requires that DIP SW1 position 7 be set to ON Refer to Table 5 for mini mum conditions required to maintain proper operation of alarm relay meter AM Models only and VDC ON ALARM indicator 2 Using tri...

Page 6: ...0 2 Maximum 85 to 132V a c 170 to 265V a c Load Effect 0 6 Typical 1 Maximum default 0 6 Typical 1 Maximum see PAR 3 8 Individual Mode 0 100 load change Current Sharing 10 100 load change Temperature...

Page 7: ...a c 50 60Hz ambient temperature 40 C max RoHS Compliance RoHS versions available contact Kepco Sales for further information EMC Emission Conducted Designed to meet FCC Class B VCCI Class B EN55011 B...

Page 8: ...0 093 2 4 0 127 3 2 0 430 10 9 2 065 52 5 3 353 85 2 0 337 8 5 0 085 2 2 0 204 5 2 0 090 2 3 0 943 23 9 2 408 61 2 0 438 11 1 0 394 10 0 3 216 81 7 0 606 15 4 0 690 17 5 FRONT VIEW REAR VIEW SEE REAR...

Page 9: ...6 CSB 1 OFF Enables Current Share always off ON N A 6 CSB 1 OFF N A ON Enables Current Share always on 7 COM to S OFF Isolates COM from S ON Connects COM to S 7 VADJ to 0 OFF Vadj adjusts output per T...

Page 10: ...established at the factory The output voltage determines which key pins are installed see Figure 3 Detail A When the proper holes in the rack adapter are blocked by keying screws installed by the user...

Page 11: ...ore unit is removed from the rack adapter Retaining Latches 2 Prevents inadvertent removal of unit from rack adapter see PAR 3 9 AM Models only Voltage Current meter Monitors out put voltage or curren...

Page 12: ...pecified in Table 2 To ensure proper operation of the alarm relay meter AM Models only and VDC ON ALARM indicator do not adjust the external voltage below minimum listed in Table 5 Using External Resi...

Page 13: ...other unlike earlier non A HSF 600W models This return is connected to the power supply OUTPUT Please contact Kepco if appli cation requires remote control to be isolated from DC output or from PF si...

Page 14: ...wait until unit cools then set the POWER switch to ON The power supply cannot be reset using the remote ON OFF feature unless the power supply remains shut down for at least 40 seconds 3 6 2 OVERCURR...

Page 15: ...N ALARM indicator can be disabled by setting DIP switch 1 position 8 to OFF 3 7 2 ALARM SIGNALS Either of two options are available for signalling alarms isolated relay contacts factory default PAR 3...

Page 16: ...on the transistor cuts off and the collector emitter cir cuit is open Figure 12 is a timing diagram of the power fail signal The default state of the alarm is logic low The sink current for the optoco...

Page 17: ...in conjunction with the RA 19 4C rack adapters to prevent unauthorized or inadvertent module extraction from an operating power system The latch is engaged by loosening the cap head screw approximatel...

Page 18: ...e the difference between voltage settings of parallel con nected units should be less than 0 5 of the nominal voltage value of the units Output voltage adjustment should be done at same load for each...

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