2 Watt
7 Pin SIL Package Z
o Ultra-Miniature Size
o Unregulated Output
o 1000 VDC Isolation
3000 VDC Isolation add Suffix „H3“, 4000 VDC Isolation add Suffix „H4“
5200 VDC Isolation add Suffix „H5“, 6000 VDC Isolation add Suffix „H6“
o Efficiency up to 82%
MODEL NUMBER
2ZUS5N3.3M
2ZUS5N5M
2ZUS5N7.2M
2ZUS5N9M
2ZUS5N12M
2ZUS5N15M
2ZUS5N18M
2ZUS5N24M
INPUT
VOLTAGE
OUTPUT
VOLTAGE
3.3 VDC
OUTPUT
CURRENT
INPUT CURRENT
% EFF
NO-LOAD
FULL LOAD
367 mA
72
78
80
400 mA
5 VDC
7.2 VDC
9 VDC
12 VDC
15 VDC
18 VDC
24 VDC
5 VDC
2ZUD5N3.3M
2ZUD5N5M
2ZUD5N7.2M
2ZUD5N9M
2ZUD5N12M
2ZUD5N15M
2ZUD5N18M
2ZUD5N24M
2ZUS12N3.3M
2ZUS12N5M
2ZUS12N7.2M
2ZUS12N9M
2ZUS12N12M
2ZUS12N15M
2ZUS12N18M
2ZUS12N24M
12 VDC
2ZUD12N3.3M
2ZUD12N5M
2ZUD12N7.2M
2ZUD12N9M
2ZUD12N12M
2ZUD12N15M
2ZUD12N18M
2ZUD12N24M
last up-date 13.04.2010
512 mA
277.7 mA
500 mA
222.2 mA
166.7 mA
133.3 mA
487 mA
111.1 mA
83.3 mA
30 mA
406 mA
±200 mA
555 mA
82
±3.3 VDC
±5 VDC
65
72
77
78
±7.2 VDC
±9 VDC
±12 VDC
±15 VDC
±18 VDC
±24 VDC
3.3 VDC
±138.8 mA
±111.1 mA
±83.3 mA
±66.67 mA
±55.55 mA
±41.67 mA
36 mA
400 mA
169 mA
216 mA
277.7 mA
208 mA
80
222.2 mA
166.7 mA
203 mA
82
133.3 mA
111.1 mA
208 mA
80
67
75
76
77
83.3 mA
20 mA
±200 mA
164 mA
222 mA
±138.8 mA
±111.1 mA
±83.3 mA
±66.67 mA
203 mA
82
±55.55 mA
±41.67 mA
219 mA
216 mA
65
77
500 mA
80
519 mA
512 mA
5 VDC
7.2 VDC
9 VDC
12 VDC
15 VDC
18 VDC
24 VDC
±3.3 VDC
±5 VDC
±7.2 VDC
±9 VDC
±12 VDC
±15 VDC
±18 VDC
±24 VDC
2 Watt - 7 Pin SIL - Package Z
S P E C I F I C AT I O N S
All Specifications Typical At Nominal Line, Full Load, and 25°C Unless Otherwise Noted
2/6
MODEL NUMBER
2ZUS24N3.3M
2ZUS24N5M
2ZUS24N7.2M
2ZUS24N9M
2ZUS24N12M
2ZUS24N15M
2ZUS24N18M
2ZUS24N24M
INPUT
VOLTAGE
OUTPUT
VOLTAGE
3.3 VDC
OUTPUT
CURRENT
INPUT CURRENT
% EFF
NO-LOAD
FULL LOAD
76 mA
72
79
400 mA
5 VDC
7.2 VDC
9 VDC
12 VDC
15 VDC
18 VDC
24 VDC
24 VDC
2ZUD24N3.3M
2ZUD24N5M
2ZUD24N7.2M
2ZUD24N9M
2ZUD24N12M
2ZUD24N15M
2ZUD24N18M
2ZUD24N24M
2ZUS48N3.3M
2ZUS48N5M
2ZUS48N7.2M
2ZUS48N9M
2ZUS48N12M
2ZUS48N15M
2ZUS48N18M
2ZUS48N24M
48 VDC
2ZUD48N3.3M
2ZUD48N5M
2ZUD48N7.2M
2ZUD48N9M
2ZUD48N12M
2ZUD48N15M
2ZUD48N18M
2ZUD48N24M
±3.3 VDC
±200 mA
±5 VDC
±7.2 VDC
±9 VDC
±12 VDC
±15 VDC
±18 VDC
±24 VDC
±138.8 mA
54 mA
±111.1 mA
±83.3 mA
±66.67 mA
52 mA
±55.55 mA
±41.67 mA
80
77
57 mA
73
±3.3 VDC
±200 mA
±5 VDC
111 mA
±7.2 VDC
±9 VDC
±12 VDC
±15 VDC
±18 VDC
±24 VDC
3.3 VDC
400 mA
5 VDC
7.2 VDC
9 VDC
12 VDC
15 VDC
18 VDC
24 VDC
277.7 mA
222.2 mA
166.7 mA
133.3 mA
111.1 mA
83.3 mA
6 mA
45 mA
60
55 mA
75
53 mA
78
54 mA
77
±138.8 mA
±111.1 mA
±83.3 mA
±66.67 mA
101 mA
±55.55 mA
±41.67 mA
45 mA
60
82
104 mA
80
75
277.7 mA
104 mA
222.2 mA
166.7 mA
133.3 mA
101 mA
111.1 mA
83.3 mA
10 mA
80 mA
68
104 mA
80
82
102 mA
80
105 mA
M + R Multitronik GmbH
Kaninchenbergweg 78 • 23564 Lübeck • Germany
Tel. (+49) 0451 - 60 99 50 • Fax (+49) 0451 - 60 46 95
www.multitronik.com
info@multitronik.com
2 Watt - 7 Pin SIL - Package Z
S P E C I F I C AT I O N S
All Specifications Typical At Nominal Line, Full Load, and 25°C Unless Otherwise Noted
3/6
INPUT SPECIFICATIONS
Input Voltage Range
Input Filter
Input Reflected Ripple Current
1)
±10%
Capacitor Type
20 mA p-p
OUTPUT SPECIFICATIONS
Voltage Accuracy
Temperature Coefficient
Ripple and Noise, 20MHz BW
2)
Capacitive Load
3)
Short Circuit Protection
Line Regulation
Load Regulation (20% - 100%)
3.3 V
Single
Dual
±3%
±0.02%/°C
75 mV p-p max.
470 µF
±220 µF
No
±1.2%/1% of Vin Change
±10%
±20%
NOTE:
1. Measured Input reflected ripple current with a simulated source inductance of 12 µH.
2. Ripple and Noise is measured with 20 MHz bandwidth.
3. Tested by minimal Vin and constant resistive load.
M + R Multitronik GmbH
Kaninchenbergweg 78 • 23564 Lübeck • Germany
Tel. (+49) 0451 - 60 99 50 • Fax (+49) 0451 - 60 46 95
www.multitronik.com
info@multitronik.com
2 Watt - 7 Pin SIL - Package Z
S P E C I F I C AT I O N S
All Specifications Typical At Nominal Line, Full Load, and 25°C Unless Otherwise Noted
4/6
GENERAL SPECIFICATION
Efficiency
Isolation Voltage (3 sec)
add Suffix "H3"
add Suffix "H4"
add Suffix "H5"
add Suffix "H6"
Isolation Capacitance
Isolation Resistance
Capacitive Load
Switching Frequency
Operating Temperature Range
Case Temperature
Storage Temperature Range
Derating
Humidity
Cooling
Reliability Calculated MTBF (MIL-HDBK-217F)
Safety Standard (designed to meet)
Case Material
Pin Material
Potting Material
Weight
Case Dimensions
Single Output
Dual Output
see table
1000
3000
4000
5200
6000
VDC
VDC
VDC
VDC
VDC
Input/Output
60 pF
1000 Mohms
470 µF max.
±220 µF max.
variable 80 kHz
-40°C to +85°C (see Derating Curve)
+100°C max.
-40°C to +125°C
see diagram
95% rel H
Natural Convection
>1.121 Mhrs
IEC60950-1
Non-Conductive Black Plastic (UL94V-0 rated)
0.5 mm Alloy42 Solder-coated
Epoxy (UL94V-0 rated)
2.3 g
19.5 x 6.00 x 10.0 mm (0.76 x 0.24 x 0.39 Inches)
ABSOLUTE SPECIFICATIONS
These are stress ratings. Exposure of devices to any of these conditions may adversely affect long-term reliability.
5
12
24
48
V
V
V
V
0 VDC to 7
0 VDC to 15
0 VDC to 28
0 VDC to 54
VDC
VDC
VDC
VDC
Input Voltage (100 mS)
Lead Soldering Temperature (1.5 mm from case 10 sec.)
NOTE:
Exceeding the absolute ratings of the unit could cause damage. It is not allowed for continuous operating.
Operation under no-load conditions will not damage these devices, however they may not meet all listed specifications.
+260°C
M + R Multitronik GmbH
Kaninchenbergweg 78 • 23564 Lübeck • Germany
Tel. (+49) 0451 - 60 99 50 • Fax (+49) 0451 - 60 46 95
www.multitronik.com
info@multitronik.com
2 Watt - 7 Pin SIL - Package Z
S P E C I F I C AT I O N S
All Specifications Typical At Nominal Line, Full Load, and 25°C Unless Otherwise Noted
5/6
MECHANICAL SPECIFICATIONS
Case "Z"
PIN CONNECTIONS
Pins
1
2
4
5
6
7
Single
+INPUT
-INPUT
-OUTPUT
NO PIN
+OUTPUT
NO PIN
Dual
+INPUT
-INPUT
-OUTPUT
COMMON
+OUTPUT
NO PIN
Single-H
+INPUT
-INPUT
NO PIN
-OUTPUT
NO PIN
+OUTPUT
Dual-H
+INPUT
-INPUT
NO PIN
-OUTPUT
COMMON
+OUTPUT
*
APPLICATION NOTES & DIAGRAMS
Ripple & Noise Filter
For reduce converter‘s ripple & noise, it is recommended to add a 4.7 µF to 220 µF (±4.7 µF to ±100 µF for dual
output) capacitor in output end. For EMI performance improvement, it is recommended to add a 12 µH inductor and
a 10 µF to 100 µF capacitor in input end.
Derating Curve
M + R Multitronik GmbH
Kaninchenbergweg 78 • 23564 Lübeck • Germany
Tel. (+49) 0451 - 60 99 50 • Fax (+49) 0451 - 60 46 95
www.multitronik.com
info@multitronik.com
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