Protections: Short circuit / Overload / Over voltage / Over temperature
/ Fan Alarm
Forced air cooling by built-in DC with fan speed control function
Output voltage can be trimmed between 20~110% of the rated output voltage
High power density 15.6W/inch
3
Current sharing up to 2 units
Alarm signal output
Built-in 12V/0.1A auxiliary output for remote control
Built-in remote ON-OFF control
Built-in remote sense function
3 years warranty
SPECIFICATION
MODEL
DC VOLTAGE
RATED CURRENT
CURRENT RANGE
RATED POWER
OUTPUT
VOLTAGE ADJ. RANGE
RSP-3000-12
12V
200A
0 ~ 200A
2400W
RSP-3000-24
24V
125A
0 ~ 125A
3000W
150mVp-p
22 ~ 28V
1.0%
0.5%
0.5%
RSP-3000-48
48V
62.5A
0 ~ 62.5A
3000W
200mVp-p
43 ~ 56V
1.0%
0.5%
0.5%
RIPPLE & NOISE (max.)
Note.2
150mVp-p
10.8 ~ 13.2V
VOLTAGE TOLERANCE
Note.3
1.0%
LINE REGULATION
LOAD REGULATION
SETUP, RISE TIME
HOLD UP TIME (Typ.)
VOLTAGE RANGE
FREQUENCY RANGE
POWER FACTOR (Typ.)
INPUT
EFFICIENCY (Typ.)
AC CURRENT (Typ.)
INRUSH CURRENT (Typ.)
LEAKAGE CURRENT
OVERLOAD
PROTECTION OVER VOLTAGE
Note.5
0.5%
0.5%
1000ms, 80ms at full load
10ms at full load
180 ~ 264VAC
47 ~ 63Hz
0.95/230VAC at full load
86%
20A/180VAC
60A/230VAC
<2.0mA / 240VAC
100 ~ 110% rated output power
16A/230VAC
254 ~ 370VDC
89%
90%
Protection type : Constant current limiting unit will shut down o/p voltage after 5sec. Re-power on to recover
13.8 ~ 16.8V
90
90
5
5
(12V), 110
(12V), 85
28.8 ~ 33.6V
57.6 ~ 67.2V
Protection type : Shut down o/p voltage, re-power on to recover
5 (24V), 105
5 (48V) (TSW1: detect on heatsink of power transistor)
5 (24V), 75
5 (48V) (TSW2 : detect on heatsink of o/p diode)
OVER TEMPERATURE
AUXILIARY POWER(AUX)
REMOTE ON/OFF CONTROL
FUNCTION ALARM SIGNAL OUTPUT
OUTPUT VOLTAGE TRIM
CURRENT SHARING
WORKING TEMP.
WORKING HUMIDITY
ENVIRONMENT STORAGE TEMP., HUMIDITY
TEMP. COEFFICIENT
VIBRATION
SAFETY STANDARDS
WITHSTAND VOLTAGE
Protection type : Shut down o/p voltage, recovers automatically after temperature goes down
12V@0.1A(Only for Remote ON/OFF control)
Please see the Function Manual
Please see the Function Manual
2.4 ~ 13.2V
Please see the Function Manual
-20 ~ +70
-40 ~ +85
(Refer to output load derating curve)
, 10 ~ 95% RH
20~90% RH non-condensing
0.05%/ (0 ~ 50 )
10 ~ 500Hz, 2G 10min./1cycle, 60min. each along X, Y, Z axes
UL60950-1, TUV EN60950-1 approved
I/P-O/P:3KVAC I/P-FG:1.5KVAC O/P-FG:0.5KVAC
/ 70% RH
4.8 ~ 28V
9.6 ~ 56V
SAFETY & ISOLATION RESISTANCE
I/P-O/P, I/P-FG, O/P-FG:100M Ohms / 500VDC / 25
EMC
EMI CONDUCTION & RADIATION
Compliance to EN55022 (CISPR22)
(Note 4)
HARMONIC CURRENT
EMS IMMUNITY
MTBF
Compliance to EN61000-3-2,-3
Compliance to EN61000-4-2,3,4,5,6,8,11; ENV50204, EN55024, light industry level, criteria A
104.5K hrs min. MIL-HDBK-217F (25
278*177.8*63.5mm (L*W*H)
4Kg; 4pcs/16Kg/1.89CUFT
)
OTHERS
NOTE
DIMENSION
PACKING
1. All parameters NOT specially mentioned are measured at 230VAC input, rated load and 25 of ambient temperature.
2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.
3. Tolerance : includes set up tolerance, line regulation and load regulation.
4. The power supply is considered a component which will be installed into a final equipment. The final equipment must be re-confirmed that it still meets
EMC directives.
5. Derating may be needed under low input voltages. Please check the derating curve for more details.
6. The disposition of output load line each must out of bounds to PSU with ten CM.
File Name:RSP-3000-SPEC 2008-12-09
3000W Single Output Power Supply
Mechanical Specification
278
236.3
RSP-3000
Case No.982B
27
12.5
series
Unit:mm
40
38
8-M4(Both Sides) L=5mm
236.3
7.9
27
OUTPUT
4-M4 L=5mm
4
20
+V
-V
CN1 CN2
CN3
63.5
LED
SVR
8 642
7 531
8 6 4 2 10 8 6 4 2
7 5 31 97 5 31
Air flow
direction
INPUT
10
177.8
162
+
13
16max.
AC Input Terminal Pin No. Assignment
Pin No.
1
2
3
Assignment
AC/L
AC/N
FG
Control Pin No. Assignment(CN1,CN2) : HRS DF11-8DP-2DS or equivalent
Pin No.
1
2
3
4
Assignment
RCG
RC
PV
PS
Pin No.
5,7
6
8
Terminal
Assignment Mating Housing
-S
CS(Current Share) HRS DF11-8DS HRS DF11-**SC
or equivalent or equivalent
+S
-S : -Remote Sensing
CS: Load Share
+S: +Remote Sensing
RCG: Remote ON/OFF Ground
RC : Remote ON/OFF
PV :Output Voltage External Control
PS : Reference Voltage Terminal
Control Pin No. Assignment(CN3) : HRS DF11-10DP-2DS or equivalent
Pin No.
1
2
3
Assignment
P OK GND
P OK
P OK GND2
Pin No.
4
5
6
Assignment
P OK2
RCG
RC
Pin No.
7
8
9
Assignment
AUXG
AUX
OLP
Pin No.
10
Assignment
OL-SD
Mating Housing
Terminal
HRS DF11-10DS HRS DF11-**SC
or equivalent
or equivalent
P OK GND: Power OK Ground
P OK: Power OK Signal
RCG: Remote ON/OFF Ground
AUXG: Auxiliary Ground
RC: Remote ON/OFF
AUX: Auxiliary Output
OLP: OLP Signal
OL-SD: OLP Shutdown Signal
Block Diagram
I/P
EMI
FILTER
ACTIVE
INRUSH
CURRENT
LIMITING
PFC fosc : 88KHz
PWM fosc : 100KHz
+S
RECTIFIERS
&
PFC
PFC
CONTROL
O.T.P.
POWER
SWITCHING
RECTIFIERS
&
FILTER
+V
-V
-S
O.V.P.
O.L.P.
PWM
CONTROL
LOAD
SHARING
DETECTION
CIRCUIT
REMOTE
CONTROL
FAN
P OK
RC
CS
RECTIFIERS
&
FILTER
AUX POWER
(12V/0.1A)
AUX
POWER
File Name:RSP-3000-SPEC 2008-12-09
TB1
1
2
3
3000W Single Output Power Supply
Derating Curve
RSP-3000
Static Characteristics
Ta=25
series
100
80
100
90
60
LOAD (%)
LOAD (%)
0
10
20
30
40
50
60
70 (HORIZONTAL)
50
40
80
70
60
20
-20
180
185
190
195
200
210
220
230
240
250
264
AMBIENT TEMPERATURE ( )
INPUT VOLTAGE (V) 60Hz
Function Manual
1.Remote ON/OFF
(1)Remote ON/OFF control becomes available by applying voltage in CN1 & CN2 & CN3
(2)Table 1.1 shows the specification of Remote ON/OFF function
(3)Fig.1.2 shows the example to connect Remote ON/OFF control function
Table 1.1 Specification of Remote ON/OFF
Connection Method
Fig. 1.2(A)
Output on
SW Open
SW Logic
Output off
SW Close
Fig. 1.2(B)
SW Open
SW Close
Fig. 1.2(C)
SW Close
SW Open
Fig.1.2 Examples of connecting remote ON/OFF
(A)Using external voltage source
(B)Using internal 12V auxiliary output
AUX
AUX
12V
RC
SW
RCG
12V typ.
1K
12V typ.
1K
RC
RCG
SW
AUXG
AUXG
(C)Using internal 12V auxiliary output
AUX
1K
12V typ.
RC
SW
RCG
AUXG
File Name:RSP-3000-SPEC 2008-12-09
3000W Single Output Power Supply
RSP-3000
series
2.Alarm Signal Output
(1)Alarm signal is sent out through "P OK" & "P OK GND" pins
(2)An external voltage source is required for this function. The maximum applied voltage
is 50V and the maximum sink current is 10mA
(3)Table 2.1 explain the alarm function built-in the power supply
Function
Description
Output of alarm(P OK)
The signal is "Low" when the power supply is above Low
80% of the rated output voltage-Power OK
(0.5V max at 500mA)
P OK
High or open
The signal turns to be "High" when the power supply
(External applied voltage
is under 80% of the rated output voltage-Power Fail
500mA max.)
Table 2.1 Explanation of alarm
Output of alarm(P OK2)
Low
(0.5V max at 10mA)
High or open
(External applied voltage
10mA max.)
P OK
P OK2
R
V
0.1uF
R
V
P OK GND
External voltage and R
(The max. Sink is 500mA and 30V)
P OK GND2
External voltage and R
(The max. Sink is 10mA and 30V)
Fig. 2.2 Internal circuit of P OK (Relay, total is 10W)
Fig. 2.3 Internal circuit of P OK2 (Open collector method)
3.Output Voltage TRIM
(1)Adjustment of output voltage is possible between 20~110%(Typ.) of the rated output which is shown in Fig. 3.1
(2)Connecting a resistor externally between PV and-S on CN1 or CN2 that is shown in Fig. 3.2.
Vout
OVP >120%
120
100
100
OUTPUT VOLTAGE (%)
80
60
40
20
OUTPUT CURRENT (%)
V
Non-Linear
80
60
40
20
V
PV
1~6V
-S
1
2
3
4
5
6
20
40
60
80
100
120
EXTERNAL VOLTAGE (DC)
OUTPUT VOLTAGE (%)
Fig. 3.1 External voltage (Typ.)
File Name:RSP-3000-SPEC 2008-12-09
3000W Single Output Power Supply
RSP-3000
series
4.Current Sharing
(1)Parallel operation is available by connecting the units shown as below
(+S,-S and CS are connected mutually in parallel):
(2)The voltage difference among each output should be minimized that less than 2% is required
(3)The total output current must not exceed the value determined by the following equation
(Output current at parallel operation)=(The rated current per unit) x (Number of unit) x 0.9
(4) In parallel operation 2 units is the maximum, please consult the manufacture for other
applications
(5) When remote sensing is used in parallel operation, the sensing wire must be connected only
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