• 6V Output for GaN driver applications
• Pot-Core transformer with separated windings
• High 5.2kVDC isolation In compact Size
• Low isolation capacitance (10pF max.)
• UL and EN certified
Features
DC/DC Converter
Unregulated
Converters
RP-xx06S
Description
1 Watt
SIP7 for
GaN Application
High slew rate GaN transistor drivers require an isolated 6V supply with high isolation voltage and low
isolation capacitance.
The RP-xx06S series have been specially designed to fulfil this demanding requirement with 5200VDC
isolation and <10pF isolation capacitance. The internal transformer uses a pot-core to physically
separate the input and output windings, yet the converter still fits into an industry standard SIP7 case.
Input voltage options of 5, 12, 15 or 24V are available and the RP-xx06S series is safety certified to the
latest UL/IEC60950 standard.
Selection Guide
Part
nom. Input
Voltage
[VDC]
Output
Voltage
[VDC]
Output
Current
[mA]
Efficiency
typ.(1)
max. Capacitive
Load(2)
Number
[%]
[µF]
RP-0506S
RP-1206S
RP-1506S
RP-2406S
5
6
6
6
6
167
167
167
167
81
77
83
82
1000
1000
1000
1000
12
15
24
Notes:
Note1: Efficiency is tested at nominal input and full load at +25°C ambient
Note2: Max. Cap. Load is tested at nominal input and full resistive load
E358085
Model Numbering
RP- __ 06S
UL60950-1 certified
IEC/EN60950-1 certified
IEC/EN60601-1 certified
Input Voltage
Single
Output Voltage
Ordering Examples
RP-0506S = 5V Input, 6V Output, Single Output
RP-1506S = 15V Input, 6V Output, Single Output
Specifications (measured @ Ta= 25°C, nom. Vin, full load unless otherwise specified)
BASIC CHARACTERISTICS
Parameter
Condition
Min.
Typ.
Max.
Internal Input Filter
capacitor type
5VDC
12VDC
15VDC
24VDC
4.5VDC
5VDC
5.5VDC
13.2VDC
16.5VDC
26.4VDC
10.8VDC 12VDC
13.5VDC 15VDC
21.6VDC 24VDC
Input Voltage Range
Input Current
nom. Vin =
5VDC
12VDC
15VDC
24VDC
270mA
120mA
86mA
nom. Vin =
nom. Vin =
57mA
5VDC
12VDC
15VDC
24VDC
20mA
10mA
8mA
Quiescent Current
7mA
www.recom-power.com/eval-ref-boards
continued on next page
www.recom-power.com
REV.: 2/2018
ECO-1