KEPCO HSF 3.3-30-1UR, HSF 5-30-1UR, HSF 12-12-1UR, HSF-1UR Series, HSF 24-6.3-1UR Instruction Manual

INSTRUCTION MANUAL

KEPCO

An ISO 9001 Company.

KEPCO SINGLE OUTPUT, 1U SIZE, 150 WATT

HOT SWAP PLUG-IN POWER SUPPLIES

I — INTRODUCTION

The Kepco HSF-1UR 150 Watt Series hot swappable, high
frequency switching, plug-in power supplies with built-in
power factor correction (PFC) employ forward conversion
and are designed to operate in a fault tolerant power sys­tem with either a-c or d-c input. A thermistor soft-st art circuit
limits start-up surge; an input fuse (5A, 250V) protects
against shorts. Built-in OR-ing diodes (all models) and a
forced current share circuit (all models except 3.3V) allow
configuration of all models for hot-swap and parallel-redun­dant N+1 operation.

The heart of the HSF-1UR Series is a Kepco RTW power
supply allowing them to weigh less and have improved effi­ciency (input current) specifications over the older HSF-1U
Series. There are three options available: C, X and Y. Fea­tures for all models are the same except as follows: C
option (-1URC) models include a current sensing resistor,
allowing external current monitoring within ±10% (contact
Kepco if greater accuracy required). X option (-1URX) mod­els have remote control, the ability to turn the unit on and
off from a remote location. Y option models (-1URY)
include both current monitoring and remote on-off capabili­ties.

HSF-1UR

150W SERIES

These power supplies are designed to be used with
Kepco’s Series RA 19-1U rack adapters. The RA 19-1U
rack adapter accepts up to four 50-, 100- or 150-Watt units
(see Figure 1). All input/output connections are through a
24-pin connector that plugs in to the rack adapter. All exter­nal connections are made through the rack adapter (refer
to the RA 19-1U manual which is available for free down­load at:

www.kepcopower.com/support/opmanls.htm#ra19-1u

Seven models may be selected for outputs of 3.3, 5, 12, 15,
24, 28 or 48V (see Table 1).

When the input is cut off, the output is ma intained for 20
milliseconds minimum. If the power supply shuts down due
to an output overvoltage condition, it is then necessary to
wait 60 seconds minimum before turning the unit on again.
EMI filtering is designed to meet FCC Class B rating and
VDE 0871 Class B rating. Table 1 contains specifications
that vary for each model of the HSF-1UR 150 Watt Series.
Common specifications are listed on page 4.

TABLE 1. OUTPUT RATINGS AND SPECIFICATIONS, HSF-1UR 150W SERIES

MODEL HSF 3.3-30-1UR HSF 5-30-1UR HSF 12-12-1UR HSF 15-10-1UR HSF 24-6.3-1UR HSF 28-5.3-1UR HSF 48-3.1-1UR

OUTPUT VOLTS, d-c (NOMINAL) 3.3V 5V 12V 15V 24V 28V 48V

ADJUSTMENT RANGE 2.8 - 3.4V 4.3 - 5.3V 9.8 - 13.0V 12.3 - 16.5V 19.2 - 26.0V 23.0 - 30.2V 40.0 - 52.2

OVERVOLTAGE SETTING

OUTPUT CURRENT, NOMINAL 30A 30A 12.5A 10A

OVERCURRENT SETTING

OUTPUT POWER, MAX

RIPPLE AND NOISE

(mV p-p)

0-40°C, 10-100% LOAD

SENSE RESISTOR VALUE (milliohms)

(1) Overtemperature or overvoltage shuts down the output. Recover by recy-

cling a-c input (30 second delay required before resetting).
(2) 25°C, Nominal. Input.
(3) Hiccup mode operation. After the cause of overcurrent is removed, output

voltage recovers automatically.
(4) See power rating curve, Figure 4. Exceeding maximum power rating may

result in oscillation or a drop in output current or voltage.

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©2019, KEPCO, INC 1
Data subject to change without notice 228-1621 REV 8

(5)

(1) (2)

(2) (3)
(4)

switching (typ.) 80 80 100 100 150 150 200

spike noise

(d-c—50MHz)

3.4 - 4.5 V 5.2 - 657V 13.2 - 15.2V 16.8 - 18.8V 26.5 - 30.3V 31.5 - 34.8V 54.5 - 59.8V

6.3A

(7)

(10A Peak

38.5 - 45.5A 33.0-39.0A 13.7-16.3A 11.0-13.0A 10.5-13.5A 5.94-7.02A 3.52-4.16A
100W 150W 150W 150W 151.2W 151.2W 153.6W

120 120 150 150 200 200 300

(6)

2.5 2.5 10 10 20 20 30
(5) Ripple and noise will be approximately 1.5 times higher in the operating temperature

range -10 to 0°C.

(6) Sense resistor included on C and Y Models only (see “Current Monitor” on page 2 for

details).

(7) Peak current and thermal protection applicable to 24V model only. See Figure 1 for

peak power requirements.

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)

5.3A 3.1A

II — FEATURES

3043527

I

1

I

2

T

t

D=(t/T)

24V Model can supply Peak current listed in Table 1 if the
four conditions listed below are met. This model includes
thermal protection, voltage shutdown type. Restart by
removing a-c input; after sufficient cooling, reapply a-c
input (wait at least 30 seconds).

1. Time: t 10 Seconds

2. I

1

Peak Current (Amperes)

3. Effective Current:
 Rated current (Amperes)

4. Effective Power P  Maximum Power (Watts)
(output RMS current x output voltage)

DI

1

2

ID–I

2

2

+

3042496

PS1 PS2

PS3

PS4

FRONT PANEL ACCESS. The front panel provides a
power ON/OFF switch controlling input power and a “VDC
ON” light which indicates when the unit is operating.

NOTE: The ON/OFF switch must be set to OFF before
removing unit from rack adapter. The front panel “MAS-

TER ON” LED lights when 1) the un it operates indepen­dently, or 2) the unit is used in parallel redundant
configurations while a) the output is less than 10% of
nominal or b) the output is within 10% to 100% of nominal
and the unit is functioning as a master. In parallel redun­dant configurations, the module with the highest voltage
functions as the master. The other units are slaves, and
track the output voltage of the master. Refer to Current
Share Bus (CSB) on page 3 for details. (The “MASTER
ON” LED is not used on 3.3V model; it is always off.) The
front panel Vadj trimmer provides adjustment of the output
voltage within the limits specified in Table 1; test points
connected to the +S and –S lines are available at the fro nt
panel for measuring the output.

BUILT-IN OR-ING DIODES. OR-ing diodes allow
configuration of all models for hot-swap and parallel­redundant N+1 operation where current distribution is not
equal and the idle unit takes over in the event of failure.

FIGURE 1. PEAK CURRENT REQUIREMENTS

FIGURE 2. HSF-1UR 150 WATT POWER SUPPLIES (4) INSTALLED IN RA 19-1U RACK ADAPTER

FORCED CURRENT SHARE CIRCUIT. (Not avail­able on 3.3V model). When units are configured for N+1
parallel redundant operation, it is desirable (but not
required) for current to be divided equally among the par al­leled supplies. When the CSB (forced Current Share Bus)
lines of paralleled HSF-1UR units are connected together,
the load current is forced to divide equally between all par­alleled units; units operate at less than maximum, reducing
stress and increasing reliability of the system. If one unit
fails, the remaining units will continue to supply the load,
and the load current will be divided equally among the
remaining operating units. The failed unit is automatically
isolated from the circuit by a built-in isolation diode. Refer
to Current Share Bus (CSB) on page 3 for details.

REMOTE ON-OFF. Remote on/off control (X and Y
models only) is via ±RC assigned to pins of the RA 19-1U
I/O connector: off = no voltage, short circuit, or 0 to 0.8V,

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2 228-1621 REV 8 021219

on = 4.5 to 12.5V (or 12.5 to 24.5V via 1.5K Ohms). To
reverse on-off polarity contact Kepco. Ther e is no isolation
between ±RC, d-c output and alarm circuit. Refer to the
RA 19-1U Manual for details. NOTE: POWER switch must
be ON for remote control to be active.

CURRENT MONITOR. Current monitor (C and Y
models only) is via ±IMON assigned to pins of the RA 19­(X)B I/O connector. Monitored Output Current (Amps) =
Voltage drop across R
R

is the sum of RS (see Table 1) + trace resistance to

EQ

(mVolts) / REQ (mOhms) where

EQ

point where current monitor is connected, approximately
4mOhms. The voltage drop across R

is measured

EQ

across ± IMON pins (requires millivoltmeter, range 0 to
250mV). Accuracy is ±10%; contact Kepco if greater
accuracy is required. There is no isolation between
±IMON, alarm circuit and d-c output. Refer to the applica­ble RA 19-1U Manual for details.

ALARM CIRCUIT. The HSF-1UR includes an isolated
internal relay offering normally closed and normally open
contacts referenced to an isolated common. These con­tacts may be used to configure “clos e on failure” or “open
on failure” alarm circuits. (Refer to the RA 19-1U Manual
for alarm configurations for multiple HSF-1UR power sup­plies.)

KEYING. Keying of the HSF-1UR is established at the
factory (see Figure 3). The output voltage determines
which key pins are installed. When the proper holes in the
rack adapter are blocked by keying screws installed by the
user, only a power supply of the correct voltage can be
inserted in the rack adapter slot. (Refer to the RA 19-1U
Manual for rack adapter keying instructions.)

FIGURE 3. REAR CONNECTOR PIN ASSIGNMENTS

CONNECTIONS: The 24-pin I/O connector (Figure 2)
mates with the corresponding connector in the RA 19-1U
Rack Adapter. All external connections are made at the
rack adapter (see Rack Adapter Manual).

(+) SENSE, (–) SENSE: These lines are provided to com-

pensate for voltage drops in the lo ad conn ecting wires. The
Sense lines must be connected to their re spective (+) and
(–) output terminals, either at the load or at the rack
adapter (see Rack Adapter Manual). The connection
ensures the most accurate error tracking.

NOTE:

The Sense lines must be connected for the

HSF-1UR Power supply to work properly!

Compensation per lead = (min. over voltage - max.adjust­ment range)/2); refer to Table 1. Compensation for 3.3V
Model is 0.1V per lead. Higher compensation values are

possible if output voltage is decreased below the maximum
adjustment range shown in Table 1. Load wire length
should not be more than 16.4ft. (5m). Transient recovery
specs may not be met when remote sensing is used. To
prevent oscillations and premature tripping of overvoltage
protection, install one electrolytic (not tantalum) capacitor
(470mF min) between +S and +V and one between ±S ter­minals.

OUTPUT (+), OUTPUT (–): HSF-1UR power supply d-c out-

put.

INPUT POWER: Line (either a-c or d-c source power), Neu-

tral and Ground (chassis)

CURRENT SHARE BUS (CSB): (Not available on 3.3V mod-

els.) Connecting the CSB lines of HSF-1UR power supplies
operating in a parallel configuration causes output current
to be shared equally. (See Rack Adapter Manual for addi­tional information on parallel configurations.). For current
sharing to work properly the outputs of all paralleled units
must be within 250 mV (max) of each other and each unit
must be operating at between 10% to 100% of rated out­put. If current to the load goes below 10 % for each unit in
current share mode, all MASTER ON lights may go on (see
load effect specifications); this indicates that forced current
share is no longer working, units are simply in current
share mode. (If forced current sharing at less than 10%
nominal current per supply is needed, contact Kepco appli­cation engineering.) Remote sensing is recommended. For
master/slave operation to work properly each unit should
be adjusted to 40 mV (optimum) less than the next paral­leled unit (unit 1 is adjusted to VOUT, unit 2 to VOUT –
40mV, and unit 3 to VOUT – 80mV, etc. If the master fails,
unit 2 will become the new master). The 40 mV difference
can be reduced to a minimum of 25 mV as needed to par al­lel many units and still keep all units within 250 mV of each
other . Adjust the outp uts using Vadj trimmer on front panel.

• Optimum difference among output voltages of p ar­alleled units: 40mV

• Maximum difference among output voltages of
paralleled units: 250 mV

• Minimum difference among output voltages of par­alleled units: 25 mV

ALARM: The Alarm NC (normally closed) - Open on Fail-

ure and Alarm NO (normally open) - Close on Failure lines
are relay contacts referenced to Alarm Common. If the unit
fails, the path between Alarm NC - Open on Failure and
Alarm Common opens, the path between Alarm NO - Close
on Fail and Alarm Common is a short circuit. Figure 4 illus­trates typical Close on Fail and Open on Fail circuits to give
a failure indication if any one of a number of power supp lies
fail; refer to RA 19-1U manual for complete information
regarding other configurations.

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Units are shipped so that the alarm will trip and shutdown
will occur upon overvoltage, open sense line and fan fail­ure (fan failure shutdown can be disabled, see “Cooling:”
on page 5 and Figure 7). The alarm will also trip upon
undervoltage, however shutdown may not occur, depend­ing on the load. After shutdown occurs, a 60 second delay
(minimum) is required before turning the unit on again.

Forced shutdown upon fan failure can be disabled by
installing a jumper, Kepco P/N 172-0382 (Digikey P/N
A26231-N) as shown in Figure 7. This allows the unit to
continue to operate with the fan inoperative (see Figure 5
for safe operating conditions); the alarm signals noted
above will report an alarm condition, and the VDC ON
indicator will either light red (fan supply voltage missing)
or flicker between red and green (mechanical failure). If
the jumper is installed, the user is responsible for either
reducing the load to within the specifications given in Fig­ure 4, or shutting down the unit using the alarm signals

FIGURE 4. TYPICAL ALARM CIRCUIT DIAGRAMS

provided.

III — SPECIFICATIONS

The following specifications apply to HSF-1UR 150 Watt
Series models (also refer to Table 1). Other models are
also available; consult your Kepco representative for their
specifications.

INPUT:

Voltage: 100-120V a-c, 200-240V a-c nominal;

Range 90-264V a-c; 130-370V d-c. (polarity
insensitive; consult factory)

Frequency: Nominal 50-60 Hz; Range 47-440Hz

(from 66 to 440Hz leakage current exceeds UL/
VDE safety spec. limit).

Current (nominal output at 100% load):

@100-120V a-c rms: 1.9A a-c rms max.

3.3V model: 1.6A rms max.;
24V Model: 2.7A rms typ. @100 Va-c input,

peak output)

@200-240V a-c rms: 1.0A a-c rms max.

3.3V model: 0.85A rms max.;
24V Model: 1.1A rms typ. @240 Va-c input,

peak output)

Initial Turn-on Surge: (cold start 25 °C, first surge

only, not including the current flow into the EMI fil­ter):
@100V a-c rms, 14A typ.,
@200V a-c rms, 28A typ.

Switching Frequency: 135KHz typical, PFC boost

converter: 80KHz typical, nominal load

STABILIZATION:

Source Effect (Range 85 to 132Va-c or

170-265 Va-c): 0.1% typ., 0.2% max.

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Load Effect (10% - 100% of rated output current):

0.2% typ., 0.4% max.

Temperature Effect (Range -10 to 71° C ):

0.5% typ., 1.0% max.

Combined Effect (source, load, temperature):

0.9% typ., 1.8% max.

Time Effect (drift): (1/2 to 8 hr. at 25°C)

0.2% typ., 0.5% max.

RECOVERY CHARACTERISTICS: A step load
change from 50% to 100% produces less than +
excursion. Recovery occurs to within +
setting in <2 mS (load change t

r

1% of the original

or tf equal to or greater

than 50sec).

START-UP TIME:

220mS. typ., 300mS max. @100V a-c;
120mS typ., 200mS max. @240V a-c (between 0

and 40° C).

ACCEPTABLE LOAD CAPACITANCE: (Start-up

time is affected.)

3.3V-28V models: 100,000uF max;
48V model: 50,000uF max.

HOLDUP TIME:

@100V a-c

All except 3.3V model: 35 mS. typ.

3.3V Model: 50mS

@240V a-c.

All except 3.3V model: 40mS. typ.

3.3V Model: 50mS typ.
Options C, X, Y: 55mS typ.

4% output

DIELECTRIC STRENGTH: (at 15 to 35°C ambient, 10

NOTE:
Safety agency approvals apply only to operation up to 40°C.

to 85% relative humidity):

Between input and output: 3KV a-c for one minute,

cutout current 10ma.

Between input and ground: 2KV a-c for one minute,

cutout current 10ma.

Between output and ground: 500V a-c for one minute,

cutout current 20ma.

INSULATION RESISTANCE: Between input and

ground, output and ground, input and output, ±RC ter­minals and input, ±RC terminals and output: 100
Megohms min. (500V d-c).

RELATIVE HUMIDITY: Operating and Storage: 10%

o

to 95% (wet bulb temp. <35

C non-condensing).

ALTITUDE: 0 -10,000 feet (operating),

0 - 65,000 feet (storage)

FUSE: Quick acting 5.0A, 250V; (5.2 x 20mm),

(Littelfuse P/N 215005PF,
Kepco P/N 541-0134).

DIMENSIONS: See Figure 7.
WEIGHT: 2.2 lbs, 1Kg.

LEAKAGE CURRENT:

0.29mA typ, 0.45mA max a t 100V a-c, 60 Hz (opera t­ing in conformance with Den-An).

0.40mA typ, 0.65mA max at 240V d-c and 60 Hz
(operating in conformance with IEC 950 and
UL1950).

SAFETY: Designed to meet EN 60950:2001 Assistance
for DEN-AN. U.S. UL 60950 First Edition.; Canada: CSA-

22.2 No.60950-1. Units are CE marked per the Low Volt­age Directive (LVD), EN60950 73/23/EEC AND 93/68/
EEC. [The standards do not apply with DC input operation.]

COOLING: All models use forced convection, ball-bear­ing fans, life expectancy 50,000+ hours. Natu ral convection
can be used if the load does not exceed 60% of max. (see
Figure 4). Simply disconnect the fan and install jumper J1
(see Figure 5); the alarm signals described above are dis­abled and VDC ON lights red; overvoltage and open sense
line conditions still force unit shutdown. Contact Kepco’s
Application Engineering for full-featured natural convec­tion-cooled units.

EMI: Designed to meet FCC Class B (100-120V a-c) and
VDE 0871 Class B (220-240V a-c).

WARRANTY: 5 years.

VIBRATION: (non-operating, one hour on each one of

the three axes):
5-10 Hz, 10 mm amplitude;
10-55 Hz, 2g acceleration.

SHOCK: (non-operating, one-half sinusoidal pulse, three

shocks to each axis):
Acceleration: 20g,
Duration: 11mS +

5mS

OPERATING TEMPERA T URE: See Figure 5.
STORAGE TEMPERATURE: -40

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021219 228-1621 REV 8 5

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C to +75oC.

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FIGURE 5. % OUTPUT POWER RATING VS. AMBI-

ENT TEMPERATURE

IV — INSTALLATION

3043412

POWER
SWITCH

TEST

POINTS

VOLTAGE

ADJUST

TRIMMER

MASTER

ON

LED

VDC

ON

LED

MOUNTING

SCREW

MOUNTING

SCREW

NOTE: MOUNTING SCREW MAX TORQUE: 2 IN.-LBS. (0.23 N x m)

MOUNTING THE POWER SUPPLY. Refer to Fig­ure 6 and insert HSF-1UR power supply in selected slot
until power supply front panel is flush with rack adapter
chassis and secure with two front panel mounting screws.

CAUTION: Do not overtighten these screws: max.
torque is 2 in.-lbs (0.23 N x m).

CONNECTIONS. All connections are made at the rear
panel of the RA 19-1U Rack Adapter (see RA 19-1U
Operator Manual). Connect the load to the applicable ±
DC OUTPUT terminals. AC input power is applied via two

V — OPERATION

Turn the unit on using the front panel POWER switch (see
Figure 6). CAUTION: DO NOT repeatedly toggle the

POWER on/off switch as this may cause unit to fault.

INPUT POWER terminal blocks: one supplying slots 2
and 4, the other supplying slots 1 and 3. Make sure to
connect the AC input Neutral, Line and Ground wires to
the respective terminals of the terminal blocks.

REMOVAL. To remove a power supply, first use the
POWER switch to turn off the unit. Then loosen the two
mounting screws and extract the unit from the RA 19-1U
Rack Adapter. CAUTION: The ON/OFF switch must be

set to OFF before removing the unit from the rack
adapter.

The 3.3V models do not use forced current sharing so the
MASTER ON LED is always off. The MASTER ON LED
for 5V through 48V models goes on under any of the three
following conditions:

• Independent operation.

• Operation in a parallel master/slave configuration
to indicate which unit is the master.

FIGURE 6. COMPONENT LOCATIONS

When output voltage is available, the VDC ON LED is on
(green). For 100W and 150W 5V through 48V models the
VDC ON LED lights red to indicate a fan malfunction. The
100W 3.3V model and all 50W models use convection
cooling and do not include a fan.

While monitoring output voltage at the front panel test
points, the Output Voltage Adjust trimmer allows adjust­ment of the output voltage.

• Operation in a parallel master/slave configuration
to indicate that a slave unit is no longer within the
proper specifications for paralleled units. Slave 1
should be optimally adjusted to 40mV less than
master, slave 2 adjusted to 40mV less than slave
1, etc. The maximum allowable difference
between paralleled units is 250mv. The minimum
allowable difference between paralleled units is
25mV. If a s lave exceeds these limits, the MAS­TER ON light goes on.

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6 228-1621 REV 8 021219

3.755 [95.4]

0.690 [17.5]

0.156 [4.0]

4.275 [108.6]

1.406 [35.7]

0.133 [3.4]

1.108 [28.2]

0.250 [6.4]

0.140 [3.6]

0.066 [1.7]

0.125 [3.2]

INSERT JUMPER J1

CONNECTOR

FAN

3010294

DETAIL "B"

SEE DETAIL "A"

JP1

MAX MOUNTING
TORQUE:
2 IN.-LBS (0.23 N x m)

0.140 [3.6]

0.250 [6.4]

7. FOR CONVECTION COOLING, DISCONNECT FAN AND
INSERT JUMPER (P/N 172-0382) AS SHOWN IN DETAIL "B."

4. DIMENSIONS ARE IN INCHES, [DIMENSIONS IN BRACKETS
ARE IN MILLIMETERS].

5. TOLERANCES (UNLESS OTHERWISE SPECIFIED):
3 PLACES: ±0.005, 2 PLACES: ±0.01, FRACTIONS: ±1/64"

SEE DETAIL "B"

1.732 [44.0]

0.010 [0.3]

4.295 [109.1]

0.140 [3.6]

0.076 [1.9]

1.131 [28.7]

0.471 [12.0]

0.780 [19.8]

3.960 [100.6]

0.437 [11.1]

1.474 [37.4]

0.591 [15.0]

B) PCB 0.063" THK FR-4

6. TO DISABLE FORCED SHUTDOWN UPON FAN
FAILURE, INSERT JUMPER (P/N 172-0382) AS
SHOWN IN DETAIL "B."

3. MODULE IS KEYED AS SHOWN IN DETAIL

A) BACKPLATE 0.064" THK. AL UM. 5052-H32

C) FRONT PANEL 0.090 THK. AL UM. 6061-T6

FRONT PANEL -KEPCO DUAL TONE GRAY

1. MATERIAL:

2. FINISH:

NOTES:

0.750 [19.1]

1.125 [28.6]

JP1

0.260 [6.6]

0.282 [7.2]

0.503 [12.8]

13.050 [331.5]

0.507 [12.9]

1.088 [27.6]

KEY PIN LOCATION

12 VOLTS

15 VOLTS

24 VOLTS

DETAIL "A"

0.140 [3.6]

3.3 VOLTS

5 VOLTS

0.228 [5.8]

48 VOLTS

28 VOLTS

0.190
[4.8]

0.191 [4.9]

14.131 [358.9]

0.125 [3.2]

0.129 [3.3]

0.303 [7.7]

0.391
[9.9]

0.507
[12.9]

1.732
[44.0]

KEPCO, INC.  131-38 SANFORD AVENUE  FLUSHING, NY. 11355 U.S.A. TEL (718) 461-7000 FAX (718) 767-1102

FIGURE 7. HSF-1UR 150W POWER SUPPLY OUTLINE DRAWING

http://www.kepcopower.com  email: hq@kepcopower.com

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