ETC UM606

UM600 SERIES
15 Watt DC-DC Converters
♦
♦
♦
♦
♦
♦
2:1 Input Range
15W Isolated Output
Efficiency to 84%
Remote On/Off Control
100 KHz Switching Frequency
Six-Sided Shield
SPECIFICATIONS
GENERAL SPECIFICATIONS
All specifications are typical at nominal line, full load and
25°C unless otherwise noted.
Efficiency ……………………….………………….. See Table
Isolation Voltage .……………….…………….. 500 VDC min.
Isolation Resistance .………….…………..…. 108 Ohms min.
Switching Frequency .………….…………………….. 100KHz
Case Grounding .……………….. Capacity Coupled to Input
Operating Temperature Range
Ambient, None Derating ……..…………..... -25°C to +71°C
Cooling .……….……………………….. Free Air Convection
Storage Temperature Range .……………... -55°C to+105°C
EMI/RFI ……………………..... Six-Sided Continuous Shield.
Dimensions ………………………..... 2.56 * 3.0 * 0.83 inches
(65 * 76.2 * 21.1mm)
Case Material ………………….... Black-Coated Copper with
Non-Conductive Base
Weight …………………..……………………………....... 180g
INPUT SPECIFICATIONS
Input Voltage Range, 12V.………………..……..……..9-18V
24V.…………………………...18-36V
48V..…………………………..36-72V
Input Filter…………………………………….…....Pi Network
Reverse Voltage Protection1……….…..Internal Shunt Diode
Use External Fuse
OUTPUT SPECIFICATIONS
Voltage Accuracy, Single Output ……………..…... ±1% max.
Dual +Output .…………...….... ±1% max.
-Output .………...……... ±3% max.
Triple, 5V ……….…..………... ±2% max.
±12V/15V ……..…..….... ±3% max.
Voltage Balance, Dual Output at Full Load .…... ±1.0% max.
Transient Response
Single, 25% Step Load Change .………………. <500µsec.
Dual,FL-1/2L,±1% Error Band …..………….... <500µsec.
External Trim Adj. Range .……………………………... ±10%
Ripple and Noise, 20MHz BW ……………. 10mV RMS max.
75mV P-P max.
Temperature Coefficient .…….………….….. ±0.02%°C max.
Short Circuit Protection .…………………….…... Continuous.
Overvoltage Protection, 5V ……………………………... 6.8V
12V ….………...………….…….. 15V
15V ………………...……………. 18V
Line Regulation2, Single/Dual Output ………….. ±0.2% max.
Triple Output .……….…..…….. ±1% max.
Load Regulation3,Single/Dual Output .……….….. ±1% max.
Triple Output ……………………. ±5% max.
NOTES:
1. Determine the correct fuse size by calculating the
maximum DC current drain at low line input, maximum
load and then adding 20% to 25% to get the desired
fuse size.
2. Measured from high line to low line.
3. Measured from full load to 1/4 full load.
REMOTE ON/OFF CONTROL
Logic Compatibility…………………………………….
…….……………………CMOS or Open Collector TTL
Ec-ON,…………………….>+5.5 VDC or Open Circuit
Ec-OFF,……………………………….……..<1.8VDC
Shutdown Idle Current……………….……...…..10mA
Control Common………...Referenced to Input Minus
MODEL
NUMBER
UM601
UM602
UM603
UM604
UM605
UM606
UM607
UM608
UM611
UM612
UM613
UM614
UM615
UM616
UM617
UM618
UM621
UM622
UM623
UM624
UM625
UM626
UM627
UM628
INPUT
VOLTAGE
12 VDC
24 VDC
48 VDC
OUTPUT
VOLTAGE
5 VDC
12 VDC
15 VDC
± 12 VDC
± 15 VDC
5/±12 VDC
5/±15 VDC
+5/+12/-5 VDC
5 VDC
12 VDC
15 VDC
± 12 VDC
± 15 VDC
5/±12 VDC
5/±15 VDC
+5/+12/-5 VDC
5 VDC
12 VDC
15 VDC
± 12 VDC
± 15 VDC
5/±12 VDC
5/±15 VDC
+5/+12/-5 VDC
OUTPUT
CURRENT
3000 mA
1250 mA
1000 mA
± 625 mA
± 500 mA
1500/±310 mA
1500/±250 mA
1500/+310/500 mA
3000 mA
1250 mA
1000 mA
± 625 mA
± 500 mA
1500/±310 mA
1500/±250 mA
1500/+310/500 mA
3000 mA
1250 mA
1000 mA
± 625 mA
± 500 mA
1500/±310 mA
1500/±250 mA
1500/+310/500 mA
INPUT CURRENT
NO LOAD
FULL LOAD
30 mA
1700 mA
30 mA
1600 mA
30 mA
1600 mA
35 mA
1520 mA
35 mA
1520 mA
40 mA
1600 mA
40 mA
1600 mA
40 mA
1470 mA
20 mA
810 mA
20 mA
780 mA
20 mA
780 mA
30 mA
750 mA
30 mA
750 mA
30 mA
780 mA
30 mA
780 mA
30 mA
815 mA
20 mA
410 mA
20 mA
390 mA
20 mA
390 mA
25 mA
375 mA
25 mA
375 mA
20 mA
380 mA
20 mA
380 mA
20 mA
350 mA
Pin
1
2
3
4
5
6
7
8
CASE E
%
EFF
75
78
78
82
82
78
78
78
77
80
80
84
84
80
80
80
77
80
80
84
84
82
82
82
CASE
E
E
E
PIN CONNECTIONS
Single
Dual
Triple
+Input
+Input
+Input
-Input
-Input
-Input
+Output
+Output
No Pin
Common
Common
Output Trim
-Output
-Output
No Pin
+5V Output
No Pin
+Output
No Pin
No Pin
-Output
Remote On/Off Control
TRIPLE OUTPUT LOADING TABLE1
Output
Voltage
1
2&3
2&3
2&3
+5
+12 or –12
+15 or –15
+12 or –5
Amperes
Min
All dimensions in inches(mm).
Tolerance .xx =± 0.04
.xxx =± 0.010
2
.250
.100
.100
.100/.100
Nom.
Max.
1.5
.310
.250
.310/.500
2.0
.500
.500
.500/.500
NOTES:
UNIVERSAL
MICROELECTRONICS
1. Maximum total power from all
outputs is limited to 15 watts but
no output should be allowed to
exceed its maximum current.
2. Minimum current on each
output is required to maintain
specified regulation.