Output Current
Min. load Full load
Input Current
Model
Number
Input
Range Voltage Voltage Range
Output
Output
Output (2)
Ripple&Noise
Eff (4) Capacitor(5)
(3)
(2)
(%)
71
74
78
81
75
79
81
80
75
79
81
82
75
79
82
82
Load max
3300μF
1500μF
700μF
No Load
Full Load
591mA
857mA
811mA
779mA
232mA
333mA
325mA
328mA
116mA
166mA
162mA
160mA
58mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
50mA
60mA
55mA
50mA
40mA
55mA
55mA
60mA
10mA
10mA
15mA
30mA
5mA
TEM03-05S33 4.5 – 9 VDC 3.3 VDC 2.84 – 3.67 VDC
600mA
600mA
250mA
±125mA
600mA
600mA
250mA
±125mA
600mA
600mA
250mA
±125mA
600mA
600mA
250mA
±125mA
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
75mVp-p
TEM03-05S05 4.5 – 9 VDC 5 VDC
TEM03-05S12 4.5 – 9 VDC 12 VDC
4.3 – 6 VDC
12 – 15 VDC
TEM03-05D12 4.5 – 9 VDC ±12 VDC ±12 – ±15 VDC
TEM03-12S33 9 – 18 VDC 3.3 VDC 2.84 – 3.67 VDC
±250μF
3300μF
1500μF
700μF
TEM03-12S05 9 – 18 VDC 5 VDC
TEM03-12S12 9 – 18 VDC 12 VDC
4.3 – 6 VDC
12 – 15 VDC
TEM03-12D12 9 – 18 VDC ±12 VDC ±12 – ±15 VDC
TEM03-24S33 18 – 36 VDC 3.3 VDC 2.84 – 3.67 VDC
±250μF
3300μF
1500μF
700μF
TEM03-24S05 18 – 36 VDC 5 VDC
TEM03-24S12 18 – 36 VDC 12 VDC
4.3 – 6 VDC
12 – 15 VDC
TEM03-24D12 18 – 36 VDC ±12 VDC ±12 – ±15 VDC
TEM03-48S33 36 – 75 VDC 3.3 VDC 2.84 – 3.67 VDC
±250μF
3300μF
1500μF
700μF
5mA
TEM03-48S05 36 – 75 VDC 5 VDC
TEM03-48S12 36 – 75 VDC 12 VDC
4.3 – 6 VDC
12 – 15 VDC
83mA
15mA
10mA
80mA
TEM03-48D12 36 – 75 VDC ±12 VDC ±12 – ±15 VDC
80mA
±250μF
Note:
1. BELLCORE TR-NWT-000332. Case 1:50% Stress, temperature at 40ºC.
MIL-HDBK-217F Notice2 @Ta=25 ºC, Full load(Ground, Benign, controlled environment).
2. Maximum value at nominal input voltage and full load.
3. Typical value at nominal input voltage and no load.
4. Typical value at nominal input voltage and full load.
5. Test by minimum Vin and constant resistive load.
6. The following output voltage can be obtained by connecting this terminal to an output + or – terminal. Unless the
output voltage is adjusted, this terminal should be open.
7. In addition, the voltage can be adjusted not by shorting these terminals, but by connecting them to resistances as shown below.
8. Arithmetic expression connected resistance: R ( KΩ )
8-1 Vo=(3.3*R+36.7)/(R+10)
8-3 Vo=2.5*[2+2.7/(R+6.8)]
8-2 Vo=(3.3*R+36.7)/(R+12.92)
8-4 Vo=2.5*[2-2.7/(R+9.5)]
8-5 Vo=2.5+9.5(R+10.9)/(R+8.2) [Between two outputs] 8-6 Vo=2.5+22*(R+12.7)/(R+10) [Between two outputs]
9. The TEM03 series can meet EN55022 Class A with parallel an external capacitor to the input pins.
Recommend : 05Vin : 10μF/25V 1210 MLCC
12Vin : 4.7μF/25V 1210 MLCC
24Vin : 3.3μF/50V 1210 MLCC
48Vin : 1.5μF/100V 1812 MLCC
TEM03-48S05 Derating Curve
120
100
80
60
40
20
0
-25
0
25
50
75
100
82
AMBIENT TEMPERATURE(℃)
TEM03-48S05
TEM03-48S05
Efficiency VS Input Voltage
Efficiency VS Output Load
85
83
81
79
77
75
73
95
90
85
80
75
70
65
60
55
50
45
36
40
44
48
52
56
60
64
68
72
10
20
30
40
50
60
70
80
90
100
OUTPUT LOAD (% of Full Load)
INPUT VOLTAGE (V)
Page 2 of 3 Issued Date:2008/01/25
P-DUKE [ POWER MATE TECHNOLOGY CO., LTD ]
