Protection type : Constant current limiting, recovers automatically after fault condition is removed
13.8 ~ 16.8V
17 ~ 20.5V
27.6 ~ 32.4V
31 ~ 36.5V
56.6 ~ 66.2V
88%
88%
90%
FUNCTION
Protection type : Shut down o/p voltage, re-power on to recover
Shut down o/p voltage, recovers automatically after temperature goes down
OVER TEMPERATURE
OUTPUT VOLTAGE PROGRAMMABLE(PV)
Adjustment of output voltage is allowable to 40 ~ 110% of nominal output voltage. Please refer to the Function Manual.
Up to 4000W or (3+1) units. Please refer to the Function Manual.
CURRENT SHARING
5V @ 0.5A (+5%, -8%)
AUXILIARY POWER
Power OFF : open. Please refer to the Function Manual.
REMOTE ON-OFF CONTROL
Power ON : short
Compensate voltage drop on the load wiring up to 0.5V. Please refer to the Function Manual.
REMOTE SENSE
DC OK SIGNAL
WORKING TEMP.
The TTL signal out, PSU turn on = 0 ~ 1V ; PSU turn off = 3.3 ~ 5.6V. Please refer to the Function Manual.
-20 ~ +60
℃
(Refer to "Derating Curve")
20 ~ 90% RH non-condensing
-40 ~ +85
℃
, 10 ~ 95% RH
±
0.02%/
℃
(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:2KVAC
O/P-FG:0.5KVAC
Test Level / Note
I/P-O/P, I/P-FG, O/P-FG:100M Ohms / 500VDC / 25
℃
/ 70% RH
Parameter
Standard
Conducted
EMC EMISSION
Radiated
Harmonic Current
Voltage Flicker
EN55024 , EN61204-3, EN61000-6-2
Parameter
ESD
Radiated
EMC IMMUNITY
EFT / Burst
Surge
Conducted
Magnetic Field
Voltage Dips and Interruptions
MTBF
WORKING HUMIDITY
ENVIRONMENT STORAGE TEMP., HUMIDITY
TEMP. COEFFICIENT
VIBRATION
SAFETY STANDARDS
WITHSTAND VOLTAGE
ISOLATION RESISTANCE
EN55022 (CISPR22) / EN55011 (CISPR11) Class A
EN55022 (CISPR22) / EN55011 (CISPR11) Class A
EN61000-3-2
EN61000-3-3
Standard
EN61000-4-2
EN61000-4-3
EN61000-4-4
EN61000-4-5
EN61000-4-6
EN61000-4-8
EN61000-4-11
-----
-----
Test Level / Note
Level 3, 8KV air ; Level 2, 4KV contact
Level 3
Level 3
Level 4, 2KV / Line-Line 4KV / Line-Earth
Level 3
Level 4
>95% dip 0.5 periods, 30% dip 25 peniods,
>95% interruptions 250 periods
MIL-HDBK-217F (25
℃
)7F (25
℃
)
SAFETY &
EMC
(Note 4)
OTHERS
NOTE
DIMENSION
PACKING
313.1K hrs min. Telcordia SR-332 (Bellcore) ; 116.75K hrs min.
295*127*41mm (L*W*H)
1.95Kg; 6pcs/12.7Kg/1.15CUFT
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. All the EMC tests are been executed by mounting the unit on
a 360mm*360mm metal plate with 1mm of thickness. The final equipment must be re-confirmed that it still meets EMC directives. For guidance on how to
perform these EMC tests, please refer to EMI testing of component power supplies. (as available on http://www.meanwell.com)
5. Derating may be needed under low input voltages. Please check the derating curve for more details.
File Name:RSP-1000-SPEC 2016-01-20
1000W Power Supply with Single Output
Block Diagram
RSP-1000
series
PFC fosc : 110KHz
PWM fosc : 90KHz
+S
I/P
EMI
FILTER
ACTIVE
INRUSH
CURRENT
LIMITING
RECTIFIERS
&
PFC
POWER
SWITCHING
O.L.P.
RECTIFIERS
&
FILTER
CURRENT
SHARE
DETECTION
CIRCUIT
O.V.P.
RECTIFIERS
CONTROL
ON/OFF
+V
-V
-S
CURRENT
SHARE
DC OK
V_TRIM
PFC
CONTROL
PWM
CONTROL
REMOTE ON-OFF
AUX POWER(5V/0.5A)
AUX GND
AUX
POWER
FAN
RECTIFIERS
&
FILTER
Static Characteristics
100
90
80
70
INPUT
MODEL
12V
720W
60A
648W
54A
15V
750W
50A
675W
45A
24V
960W
40A
864W
36A
27V
999W
37A
48V
1008W
21A
100~264VAC
90VAC
LOAD (%)
60
50
40
899.1W 907.2W
33.3A
18.9A
90
95
100
115
264
INPUT VOLTAGE (VAC) 60Hz
Derating Curve
Efficiency vs Load (48V Model)
95
100
90
85
EFFICIENCY (%)
80
80
75
70
65
60
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
60
LOAD (%)
40
20
-20
0
10
20
30
40
50
60
70
(HORIZONTAL)
AMBIENT TEMPERATURE (
℃
)
LOAD
※
The curve above is measured at 230VAC.
File Name:RSP-1000-SPEC 2016-01-20
MeanWell Direct, Orion House, Calleva Park, Aldermaston, Berkshire, RG7 8SN
The Remote Sense compensates voltage drop on the load wiring up to 0.5V
RSP-1000
series
Sense lines should be twisted in pairs to minimize noise pick-up.
1
2
11
12
PIN1 +S
+V
LOAD
PIN2 -S
PIN10 Vca
PIN8 Vco
PIN6 REMOTE ON-OFF
-V
+V
-V
CN50
TB1
◎
The
+S
signal should be connected to the positive terminal of the load whereas
-S
signal to the negative terminal.
◎
This configuration is based on the assumption the Output Voltage Programming is not activated and power supply is ON.
Fig 1.1
2.Remote ON-OFF Control
※
The power supply can be turned ON-OFF indivicluaaly or along with other units by using the “Remote ON-OFF” function.
Between
Remote ON-OFF (pin6)
and
-S(pin2)
Switch Short
Switch Open
Power Supply Status
ON
OFF
1
2
11
12
PIN10 Vca
PIN8 Vco
PIN2 -S
+V
LOAD
+
-
-V
CN50
Fig 2.1
TB1
Switch
PIN6 REMOTE ON-OFF
◎
The power supply is shipped, by factory default, with
Remote ON-OFF(pin6)
and
-S(pin2)
shorted by connector.
◎
When multiple power supplies need to turn ON/OFF simultaneously by Remote ON-OFF control, -S & -V, as well as +S & +V, on each power supply
should be connected.
3.DC_OK signal
※
"DC_OK" is an open collector signal. It indicates the output status of the power supply. It can operate in two ways : One is sinking current from external
TTL signal ; the other is sending out a TTL voltage signal.
◎
Sinking current from external TTL signal:
The maximum sink current is 10mA and the maximum external voltage is 5.6V.
◎
Sending out TTL voltage signal :
Between
DC- OK(pin5)
and
GND(pin11&12)
0 ~ 1V
3.3 ~ 5.6V
Output Status
ON
OFF
PIN5 DC_OK
PIN12 GND
1
2
11
12
PIN10 Vca
PIN8 Vco
+V
-V
CN50
Fig 3.1
TB1
PIN2 -S
PIN6 REMOTE ON-OFF
File Name:RSP-1000-SPEC 2016-01-20
1000W Power Supply with Single Output
RSP-1000
series
4. Output Voltage Programming (or, PV / remote voltage programming / remote adjust / margin programming / dynamic voltage trim)
※
In addition to the adjustment via the built-in potentiometer, the output voltage can be trimmed to 40~110% of the nominal voltage by applying
either an EXTERNAL VOLTAGE or an EXTERNAL RESISTANCE.
(1)Applying EXTERNAL VOLTAGE between "
Vci
"
(pin9)
and "
-S
"
(pin2)
as shown in Fig4.1
1
+S
-S
CN50
AUXG DC_OK
AUX ON/OFF
CS
Vco
Vci
Vca
11
GND
GND
12
1
2
11
12
PIN1 +S
+V
-V
2
External Voltage
LOAD
PIN2 -S
+V
-V
CN50
TB1
PIN9 Vci
EXTERNAL VOLTAGE (DC)
PIN6 REMOTE ON-OFF
◎+S
&
+V
and
-S
&
-V
also need to be connected on CN50
Fig 4.1
(2)Applying EXTERANL RESISTANCE as shown in Fig4.2 & Fig 4.3
(A) Output voltage goes down
1
+S
CN50
AUXG DC_OK
AUX
REMOTE
ON-OFF
CS
Vco
Vci
Vca
11
GND
GND
12
PIN3 AUXG
1
2
11
12
-S
PIN1 +S
PIN9 Vci
2
R1
+V
-V
CN50
TB1
PIN2 -S
PIN4 AUX
R1
PIN10 Vca
+V
-V
LOAD
PIN6 REMOTE ON-OFF
◎+S
&
+V
and
-S
&
-V
also need to be connected on CN50.
Fig 4.2
(B)Output voltage goes up
1
+S
-S
CN50
AUXG DC_OK
AUX
REMOTE
ON-OFF
CS
Vco
Vci
Vca
11
GND
GND
12
PIN3 AUXG
1
2
11
12
PIN1 +S
PIN9 Vci
2
R2
+V
-V
CN50
TB1
PIN2 -S
PIN4 AUX
PIN10 Vca
+V
-V
LOAD
R2
PIN6 REMOTE ON-OFF
◎+S
&
+V
and
-S
&
-V
also need to be connected on CN50.
Fig 4.3
OVP 120%(Typ.)
Vout
Vout
100
90
80
Non-Linear
70
60
50
40
390 560 820 1K2 2K2 4K7 open
R1, 1/8W(Typ.)
open
18K
7K5
R2, 1/8W(Typ.)
OVP 120%(Typ.)
Vout
120
OUTPUT VOLTAGE (%)
OUTPUT VOLTAGE (%)
100
80
60
40
20
Vci(Referenced to -S)
Non-Linear
OUTPUT VOLTAGE (%)
110
Non-Linear
105
100
1
2
3
4
5
6
EXTERNAL VOLTAGE (VDC)
Fig 4.1.1
EXTERNAL RESISTANCE (
Ω
)
Fig 4.2.1
EXTERNAL RESISTANCE (
Ω
)
Fig 4.3.1
※
Caution: By factory default, the Output Voltage Programming is not activated, and
Vco (pin8)
and
Vca(pin10)
are shorted by connector. Whenever this
function is not needed to activate, as assumed in other sections’ diagrams, please keep
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