TDK-Lambda
IA599-01-01H
FPS1000-12 FPS1000-24 FPS1000-48
1
V
12
24
48
2
V
12+/-1%
24+/-1%
48+/-1%
3
V
10.5~13.2
21.5~29
43~58
4
A
72
40
21
5
W
864
960
1008
6
Input voltage / frequency range
(*1)
---
85~265Vac continuous, 47~63Hz, Single phase
7
Maximum input current (at 100/200Vac)
A
12.0/6.0
8
---
>0.98 at 115/230V and maximum output power
9
(*2)
%
81/83%
84/86%
85/88%
10
(*3)
A
Less than 40A
11
mS
20mS typical at 100Vac input, rated output voltage and less than 80% of rated load.
12
(*5)
---
0.40%
13
(*6)
---
0.80%
14
(*4)
mV
150
200
300
15
---
0.05% of rated Vout for 8hrs after 30min warm-up. Constant line,load and temperature.
16
PPM/°C
200
17
(*7)
---
Possible. Refer to Instruction Manual.
18
(*9)
---
Possible. Refer to Instruction Manual.
19
Series operation
---
Possible. Refer to Instruction Manual.
20
---
104%~125% of maximum output current. Refer to Fig. 1
21
(*8)
V
14.3~15.7
31~34
62~66
22
---
Inverter shut down method, automatic reset.
23
---
By electrical signal or dry contact. ON: 0~0.6V or short. OFF: 2~15V or open.
24
---
Open collector signal. On when Vout>80+/-5% rated output. Max.sink current: 10mA
25
---
Open collector signal. Refer to Instruction Manual
26
---
Open collector signal. Refer to Instruction Manual
27
---
11.2~12.5VDC. 0.25A Maximum output current.
28
---
Possible, via Vout Trim pin in the I/O connector. Refer to Instruction Manual.
29
---
AC OK, DC OK, DC FAIL
30
---
Optional. Refer to Instruction Manual.
Operating temperature-
models without IEC inlet
---
0~50°C: 100% load. Derate 2%/°C, 50°C to 60°C, Derate 2.5%/°C, 60°C to 70°C.
models with IEC inlet
---
0~50°C: 100% load. Derate 2%/°C, 50°C to 60°C.
32
---
-30~85°C
33
---
10~90% RH, no condensation.
34
---
10~95% RH, no condensation.
35
---
By internal Fans. Variable speed control.
36
---
Built to meet ETS 300 019
37
---
Built to meet ETS 300 019
38
---
Built to meet EN55032B, FCC part 15J-B, VCCI-B
39
Radiated emission
(*10)
---
Built to meet EN55032B, FCC part 15J-B, VCCI-B
40
---
IEC 62368-1 UL62368-1 CSA22.2 No.62368-1 EN62368-1.
41
---
Input-Output: 3000Vrms, 1min. Input-Ground: 2000Vrms, 1min. Output-Ground:500Vrms, 1min.
42
---
More than 100Mohm at 25°C and 70% RH. Output-Ground: 500Vdc
43
---
Less Than 1.1mA at 230Vac
44
Kg
2.0
45
---
127x41x290mm. Refer to Outline Drawing.
Notes:
*1:
For cases where conformance to various safety standards (UL, EN etc.) is required,
to be described as 100-240Vac (50/60Hz).
*2:
At 100/200Vac, rated load and 25°C ambient temperature.
*3:
Not applicable for the noise filter inrush current less than 0.2mS.
*4:
Measured with JEITA RC-9131A 1:1 probe, 20MHz B.W.
*5:
From 85~132Vac or 170~265Vac, constant load.
*6:
From No-load to Rated load, constant input voltage. Measured at the sensing point in Remote sense.
*7:
Remote sensing can compensate up to 1V drop on each load wire.
*8:
Inverter shut down method. Reset by AC voltage recycle or by On/Off control.
*9:
Derate Maximum output power by 10% for input voltage less than 100V
RMS
.
*10:
For FPS1000-12/P(S), when used not with FPS-S1U or FPS-T1U racks, an EMI suppressor clamp should be
attached to the AC cable, as close as possible to the AC inlet, to meet class B.
Model
FPS1000
FPS1000
FPS1000
V/I
-12
-24
-48
12
24
48
13.2
29
58
66
33
17.25
72
40
21
Size (W*H*D)
V1 (V)
V2 (V)
I1 (A)
I2 (A)
Weight (Typ)
Storage temperature
Operating humidity
Storage humidity
Cooling
Vibration
Shock
Conducted emission
Applicable safety standards
Withstand voltage
Isolation resistance
Leakage current
Auxiliary power supply
Vout voltage trimming
Front panel indicators
I²C Interface
31
AC fail signal
Output Ripple and noise PtP
Temperature stability
Temperature coefficient
Remote sensing
Parallel operation
Over current protection
Over voltage protection
Over temperature protection
Remote On/Off control
DC OK signal
Over-Temp. warning
Max load regulation
FPS1000 SERIES SPECIFICATIONS:
Rated output voltage
Output voltage set point
Output voltage range
Maximum Output Current (Refer to Fig.1)
Maximum output power
Power Factor (Typ)
Efficiency (Typ)
Inrush current
Hold-up time
Maximum line regulation
Fig. 1: Rated output current
V1
V2
Vout (V)
I1
I
Iout (A)
I2