Datasheet
R-6xxx
Characteristics Conditions Min. Typ. Max.
Output Current R-61xxP/D 0.1A 1.1A
R-62xxP/D 0.2A 2.0A
Output Current Limit 4A 4.5A 5A
Short Circuit Input Current Vin > 12V 20mA 100mA
Short Circuit Protection Continuous, automatic recovery
Output Voltage Accuracy At 100% Load ±1% ±2%
Line Voltage Regulation (Vin = min. to max. at full load) 0.5%
Load Regulation (10 to 100% full load) R-61xxP/D 0.5%
R-62xxP/D 1.0%
Vo Ripple & Noise R-61xxP/D 40mVpp 100mVpp
R-62xxP/D 40mVpp 120mVpp
Transient Response (see note 1) 50% Load Change 100us 200us
Vout Over / Undershoot 5%
Remote ON / OFF (see note 2) Open or high (Power ON) 2.0V 10V
(positive logic) Low (Power OFF) 0.8V
Remote Off Input Current Remote ON/OFF low level 100µA
Max capacitance Load with normal start-up time, no external diodes 200µF
with <1 second start up time + diode protection circuit 6800µF
Switching Frequency 200kHz 250kHz 300kHz
Quiescent Current Vin = min. to max. at 0% load 6mA 10mA
Operating Temperature Range -40°C +85°C
Storage Temperature Range -40°C +125°C
Case Material Non-Conductive Black Plastic
Potting Material Epoxy (UL94V-0)
internal Power Dissipation Io x Vo x (1-Efficiency) 1.0W
Package Weight 9g
Packing Quantity 15 pcs per Tube
MTBF (Nominal Vout, 100% load) Tamb. = +25°C 563 x 10³ hours
Tamb. = +71°C 117 x 10³ hours
EN General Safety Report: SPCLVD 1301028-1 EN60950-1:2006 + A12:2011
R-6xxxP_D
Series
Specifications (refer to the standard application circuit, Ta: 25°C)
Output Current vs Input Voltage
Notes:
INNOLINE
DC/DC-Converter
Output Current (A)
2
1
14
9.0
28
Input Voltage (V)
0
1.2A
R-62XX
R-61XX
24
32
Ambient Temperature (°C)
90
60
20
40
1.510.5
Internal Power Dissipation (W)
0
80
85
0.7
1. Requires a 100µF electrolytic or tantalum output capacitor for proper operation in all applications (the capacitor to be placed as close as possible to the output pins).
2. ON / OFF pin can be driven by TTL (logic gate), open-collector bipolar transistor or open-drain MOSFET.
3. Output Current vs. Input Voltage (see graph below).
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Detailed Information see
Application Notes chapter "MTBF"
at Vin = 32VDC
Efficiency = 93% (see ”Selection Guide” table)
Vo = 12VDC
Io = 1W / 12V x (1-0.93) = 1.19A
Max output current calculation:
Internal power dissipation
(1W) = Io x Vo x (1-Efficiency)
Io = 1(W) / Vo x (1-Efficiency)
at Vin = 14VDC
Efficiency = 96% (see ”Selection Guide” table)
Vo = 12Vdc
Io = 1W / 12V x (1-0.96) = 2.08A
Example : R-6212P
I-52 www.recom-power.comREV: 1/2016