LAMBDA ELECTRONICS
SV SERIES
Instruction Manual
SVT/SVQ300
AC/DC Power Supply
SVT/SVQ300 SERIES
FEATURES:
- Universal 85-265 VAC Input
- Short Circuit Protection
- VDE/FCC Level "B" Input Filter
- VDE,CSA,UL & IEC Safety Specs
- Compact 4.75" x 1.77" x 11"
- Optional Cover Available
- Optional Input and Output Good Signals (1)
- Optional 110/220 Vac Jumper Select
- Remote Sense of main output
MODEL NUMBERS & MAXIMUM RATINGS
MODEL NUMBER
SPECIFICATION
Package Output Power
@ 50° C Ambient
and 200 LFM External Fan
Package Output Power
@ 60° C Ambient
and 200 LFM External Fan
Package Output Power
@ 50° C Ambient
Convection Cooling
Package Output Power
@ 60° C Ambient
Convection Cooling
With Cover (-Z Option)
192 W
192 W
192 W
(Ambient is defined as two inches below the unit.)
INPUT SPECIFICATIONS
SPECIFICATION
Input Voltage Range
Input Current
Efficiency
Input Power Typical
(Pout Max, Fan Cooled)
Inrush Current
Fusing
Vin=265 Vac @ 25°C
8A/250VAC, Normal Blo (2)
75
Apeak
Vin=85 Vac @300W
Vin=85 Vac @300W
With Cover (-Z Option)
Without Cover
225 W
213 W
225 W
213 W
225 W
213 W
With Cover (-Z Option)
Without Cover
230 W
250 W
230 W
250 W
230 W
250 W
With Cover (-Z Option)
Without Cover
270 W
255 W
270 W
255 W
270 W
255 W
CONFIGURATION
Without Cover
SVQ300-1-XXX
300 W
SVQ300-2-XXX
300 W
SVT300-1-XXX
300 W
DESCRIPTION:
The
SVT/SVQ300
Series is a multiple output, high
performance line of triple and quad output power supplies
in an open frame chassis. The
SV
(Superior
Value)
series gives
the system designer tremendous flexibility with its standard
features and available options. Standard features include automatic
AC mains select,
Class "B" VDE
and
FCC
EMI filtering, Remote
Voltage Sensing on the +5 volt main output and Short Circuit
Protection on each output. Optional features include a Safety
Cover, Input Good, Output Good and jumper AC
mains select.
CONDITIONS
MIN
85
180
NOM
115
230
6
70
428
MAX
132
265
UNITS
Vac
Vac
Arms
%
W
(1) DC Good signal is a 1mA conductance signal which indicates that DC output voltage is greater than 90% of nominal voltage.
AC good signal is a 1mA conductance signal which indicates adequate input capacitor energy storage to provide 10msec holdup.
DC output voltage will remain within regulation limits for a minimum of 10msec after AC Good signal ceases to conduct.
AC Good signal is initiated approximately 2 seconds after input power is applied.
(2) Overload of power supply does not cause fuse failure. Replace only with same type and rating.
LAMBDA ELECTRONICS, INC.
IM-SVQ3
515 BROAD HOLLOW RD. MELVILLE, NY 11747-3700
(516) 694-4200
1
LAMBDA ELECTRONICS
SV SERIES
MECHANICAL SPECIFICATIONS (STANDARD MODEL)
SPECIFICATION
Weight
4.5lbs
Input Connector
Plug-in Header 0.197" center
Weco
Mating P/N 10.808.005 or equivalent
Output Connector
Buss-Bars with M4 Threaded Inserts for V1
Plug-in Header 0.197" center for V2,V3,V4
Weco
Mating P/N 10.808.006 or equivalent
Signals Connector
.100" center
Molex
Mating P/N 22-01-2047 or equiv.
Mounting
2 Mounting Positions
See Outline Drawing
2 Mounting Surfaces
OPTIONS SPECIFICATIONS
-XXX
DESCRIPTION
DERATING
A
Jumper Select 110/220 Vac input
Z
Fully Enclosed Unit.
10% for fan cooled
All output currents must be derated
10% for convection cooled
by:
L
No Monitoring Signals
OUTPUT- V1 SPECIFICATIONS (STANDARD MODELS)
CONDITIONS
MIN
NOM
MAX
UNITS
SPECIFICATION
Output Voltage (Adjustable)
4.75
5.00
5.25
V
Output Current (Power)
38.0 (190)
A (W)
@ 50°C Ambient
Output Current (Power)
32.0 (160)
A (W)
@ 60°C Ambient
Output Ripple
100
mV p-p
Total Regulation -Line and Load
Over Input Line Range - 0 to 38A
50
mV
Pre-Load Requirements
none
A
Over Voltage Protection
Trip Levels
6
6.9
V
Turn-on Time
85Vac
2
sec
Overshoot
Turn On, Turn Off, or Power Failure
0
V
Hold-up Time
@ 85 Vac
16
ms
Temperature Coefficient
0.03%
Remote Sense (4)
Max Cable Drop
0.5
V
OUTPUT- V2 SPECIFICATIONS (STANDARD MODELS)
SPECIFICATION
CONDITIONS
MIN
NOM
MAX
UNITS
Output Voltage (fixed)
Factory Set (5)
11.4
12.0
12.6
V
Output Current (Power) (3)
6.0 (72)
A (W)
@ 50°C Ambient
Output Current (Power)
5.0 (60)
A (W)
@ 60°C Ambient
Output Ripple
240
mV p -p
Pre-Load Requirements
1.2
A
Total Regulation -Line and Load
Over Input Line Range
600
mV
50% Load Change
Overshoot
Turn On, Turn Off, or Power Failure
0
V
Peak Output Current
See note (6)
10
A
OUTPUT- V3 SPECIFICATIONS (STANDARD MODELS)
SPECIFICATION
CONDITIONS
MIN
NOM
MAX
UNITS
Output Voltage (fixed)
Factory Set (5)
-11.4
-12.0
-12.6
V
Output Current (Power)(3)
3.0 (36)
A (W)
@ 50°C Ambient
Output Current (Power)
2.5 (30)
A (W)
@ 60°C Ambient
Output Ripple
240
mV p-p
Pre-Load Requirements
none
A
Total Regulation -Line and Load
Over Input Line Range
600
mV
50% Load Change
Overshoot
Turn On, Turn Off, or Power Failure
0
V
Peak Output Current
See note
(
6)
10
A
(3) The total output power for V2,V3,V4 outputs should not exceed 110w for Fan Cooled and 100w for Non-Fan Cooled Units at 50°C.
(4) Remote sensing on the main output is accomplished by removing JP1 and JP2 from the printed circuit board and connecting
the load to the +S1 and -S1 terminals found on J3. The maximum cable drop is 0.5 volts.
(5) Minimum load on V2 and no load on auxiliaries.
(6) Peak output current lasting less than 30 seconds with a duty cycle of < 5%. During peak current transients the outputs may
LAMBDA ELECTRONICS, INC.
IM-SVQ3
515 BROAD HOLLOW RD. MELVILLE, NY 11747-3700
(516) 694-4200
2
LAMBDA ELECTRONICS
SV SERIES
not meet regulation specifications. Multiple outputs delivering peak curents may cause the power supply to current limit.
(7)Unit meets drop test in the Lambda shipping container.
OUTPUT- V4 SPECIFICATIONS (STANDARD SVQ300-1 and SVQ300-2 MODELS)
SPECIFICATION
CONDITIONS
MIN
NOM
MAX
UNITS
Output Voltage (-1)
Factory Set
22.8
24.0
25.2
V
Output Voltage (-2)
Factory Set
-4.75
-5.0
-5.25
V
Output Current (Power) (-1)
2.0 (48)
A (W)
@ 50°C Ambient
Output Current (Power) (-2)
8.0 (40)
A (W)
@ 50°C Ambient
Output Current (Power) (-1)
1.7 (41)
A (W)
@ 60°C Ambient
Output Current (Power) (-2)
7.0(35)
A (W)
@ 60°C Ambient
Output Ripple (-1)
480
mV p-p
Output Ripple (-2)
100
mV p-p
Total Regulation - Line and Load(-1)
Over Input Line Range
1200
mV
50% Load Change
Total Regulation - Line and Load(-2)
Over Input Line Range
250
mV
50% Load Change
Pre-Load Requirements
none
A
Overshoot
Turn On, Turn Off, or Power Failure
0
V
GENERAL SPECIFICATIONS (STANDARD MODEL)
SPECIFICATION
CONDITIONS
Input to Output
3000 Vac
Input to Signals
3000 Vac
Isolation Voltages
Input to Chassis
1500 Vac
Output to Chassis
500 Vac
Output to Signals
500 Vac
Leakage Current
1 mA Max
UL1950,
CSA22.2 #234-M90,
Agency Approvals
EN60950,
IEC950,
EN410003
IEC801-2,-4,-5
Level 3
Input Surge Protection
IEEE C62.41-1991
Location Cat. A2
(A3 w/ ext. MOV's)
VDE0871 Curve B,
EMI Conducted
FCC Part 15
Subpart J Class B
TERMINAL CONNECTIONS
AC INPUT
Neutral
Line
Ground
DC OUTPUT
- V4
+ V4
- V3
+ V3
- V2
+ V2
J1
5
3
1
J2
1
2
3
4
5
6
J3 AC / DC Signals
1
V1 (+S )
2
V1 ( -S )
3
AC Good
4
AC Good return
5
DC Good
6
DC Good return
ENVIRONMENTAL SPECIFICATIONS (STANDARD MODEL)
SPECIFICATION
CONDITIONS
RANGE
Temperature
Operating (with
derating above 50°C)
0°C to 60°C
Storage
-30°C to +85°C
Vibration
MIL-STD-810E for Transportation
Notes:
- Short circuit protection on auxiliaries is limited to 30 seconds or damage/failure to unit may occur.
- Operation of the unit between the line voltages of 132 and 180Vac for greater than 30 seconds will cause
catastrophic failure to the unit.
- All outputs are derated with the Z option (cover) chosen. See derating table.
- Proper air circulation is required when the unit is mounted in confined areas.
- Remote on/off - J8 is a primary referenced connector located in the center of the unit.
Short J8 terminals = unit off, open J8 terminals = unit on
Note: This is a primary referenced circuit and requires proper agency clearances.
The use of an opto isolator is recommended.
LAMBDA ELECTRONICS, INC.
IM-SVQ3
515 BROAD HOLLOW RD. MELVILLE, NY 11747-3700
(516) 694-4200
3
LAMBDA ELECTRONICS
Pin #1
+V1
-V1
Pin #1
SV SERIES
+
_
Load
J
J8
**
J3
JP1
JP2
J2
Pin #1
*
GND
Power Supply
* For positive ground, move the -V to gnd jumper to +V to gnd, as shown with dashed line.
** JP1 and JP2 must be installed for unit to operate in local sense mode.
Figure 1 Typical Local Sense Connection
J
+S Pin #1
-S Pin #2
J8
JP1
** JP2
+V1
-V1
***
Load
J3
*
GND
J2
Power Supply
* For positive ground, move the -V to gnd jumper to +V to gnd, as shown with dashed line.
** JP1 and JP2 must be removed for unit to operate in remote sense mode.
Remote sense minimizes the effects of distribution losses by regulating
the voltage at the remote sense connections. Good layout techniques,
such as close proximity and directness, should be observed for noise immunity.
*** Suitable decoupling capacitor (0.1uF, or higher) may be required at load.
Figure 2 Remote Sense Connection
LAMBDA ELECTRONICS, INC.
IM-SVQ3
515 BROAD HOLLOW RD. MELVILLE, NY 11747-3700
(516) 694-4200
4
LAMBDA ELECTRONICS
SV SERIES
Figure 3 Typical DC and AC Good Signal Connections
+V1
J
JP1
JP2
-V1
J3
220v
110v
Direction of Airflow
*
**
J2
A
***
Main Output
Adjust Pot
Power Supply
* 200 LFM in the direction shown is required for maximum output power (300W).
** Jumper location for AC mains select option (A option).
Connect from terminal 'A' to '110' for 115 VAC operation and from terminal '110' to '220' for 230 VAC operation.
*** The main output voltage may be adjusted using the adjustment potentiometer shown.
Figure 4 Location of AC Mains Selector, Output Voltage Adjustment Potentiometer and Direction of Airflow
LAMBDA ELECTRONICS, INC.
IM-SVQ3
515 BROAD HOLLOW RD. MELVILLE, NY 11747-3700
(516) 694-4200
5
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