The R-7XXX series is a high performance 2.5V to 15V , 2Amp to 4Amp,12-Pin SIP (single in-line package),
Integrated switching regulator (ISR). The Synchronous - rectified design yields excellent efficiencies up to 97%.
Short circuit protection reduces the short circuit input current to under 50mA .
2, 3, 4 AMP
SIP12
Vertical
&
Horizontal
Selection Guide
Part
Number
SIP12
R-723.3x
R-725.0x
R-726.5x
R-729.0x
R-7212x
R-7215x
R-733.3x
R-735.0x
R-736.5x
R-739.0x
R-7312x
R-7315x
R-743.3x
R-745.0x
R-746.5x
Input
Range
(V)
4.5 – 28
6.5 – 28
8.5 – 28
12 – 28
15 – 28
19 – 28
4.5 – 28
6.5 – 28
8.5 – 28
12 – 28
15 – 28
19 – 28
4.5 – 28
6.5 – 28
8.5 – 28
Nominal
Vout
Output
Output Voltage Adjust Range Current
(V)
(V)
(A)
3.3
5.0
6.5
9.0
12
15
3.3
5.0
6.5
9.0
12
15
3.3
5.0
6.5
2.5 – 5.5
3.0 – 5.5
5.0 – 8.0
7.0 – 11
10 – 14
13 – 17
2.5 – 5.5
3.0 – 5.5
5.0 – 8.0
7.0 – 11
10 – 14
13 – 17
2.5 – 5.5
3.0 – 5.5
5.0 – 7.5
2
2
2
2
2
2
3
3
3
3
3
3
4
4
4
Efficiency (%)
Min. Vin 12V Max. Vin
95
96
97
96
97
97
94
95
97
96
97
97
93
95
96
93
95
96
-
-
-
93
95
96
-
-
-
92
94
96
89
91
93
93
95
96
89
92
93
94
96
96
88
91
93
2011/65/EU
6/6
RoHS
EN-60950-1 Certified
R-7xxx
Note: Vin-Vout
≥
1.5V~4.0V depending on Vout if adjust function is used!
Suffix x: (see mechanical drawing for details)
x = P pins vertical through hole
x = D pins bent for horizontal through hole mounting
Refer to Application Notes
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REV: 2/2016
I-55
INNOLINE
DC/DC-Converter
Specifications (refer to the standard application circuit, Ta: 25°C)
Characteristics
Output Voltage Range
Output Current
Output Current Limit
Short Circuit Input Current
Short Circuit Protection
Output Voltage Accuracy (At 100% Load)
Line Voltage Regulation (Vin = min. to max. at full load)
Load Regulation (10 to 100% full load)
Ripple & Noise
Transient Response (see note 1)
Remote ON / OFF (see note 2)
Max capacitance Load
Switching Frequency
Shutdown current
Quiescent Current
Operating Temperature Range
Operating Case Temperature
Storage Temperature Range
Case Material
Potting Material
R-7xxx
R-7xxxP_D
Series
Conditions
All Series
R-72xxP/D
R-73xxP/D
R-74xxP/D
R-72xxP/D
R-73xxP/D
R-74xxP/D
All Series
All Series
All Series
All Series
All Series
50% Load Change –
Vout Over / Undershoot
Open or High (Power ON)
4.5
Low (Power OFF)
with normal start-up time, no external diodes
with <1 second start up time + diode protection circuit
270
ON / OFF Pin pulled low
Vin = min. to max. at 0% load
-40°C
-40°C
300
Min.
2.5
0.2
0.3
0.4
2.5
3.75
5.0
50
Continuous, automatic recovery
±1%
0.5
0.5
40mVp-p
100µs
±2%
1.0%
1.0%
70mVp-p
200µs
100mV
28V
0.8V
200µF
6800µF
330kHz
100µA
30mA
+85°C
+110°C
+125°C
Non-Conductive Black Plastic
Epoxy (UL94V-0)
Natural Convection
Ta < 60°C
25°C/W
1.4W
9g
15 pcs per Tube
Tamb. = +25°C
Tamb. = +85°C
Typ.
Max.
17V
2.0A
3.0A
4.0A
3.0A
4.25A
5.5A
100mA
Thermal Impedance
Internal Power Dissipation
Package Weight
Packing Quantity
MTBF (Nominal Vout, 100% load)
EN General Safety
}
Detailed Information see
Application Notes chapter "MTBF"
749 x 10³hours
150 x 10³hours
EN60950-1:2006 + A12:2011
Report: SPCLVD1301028-1
Notes:
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 driven by TTL (logic gate), open-collector bipolar transistor or open-drain MOSFET.
Output Current vs Input Voltage
How to calculate the max output current
The internal power dissipation(P
D
)follows the equation:
P
D
= Io × Vo × (1-η)
Io = P
D
/ Vo × (1-η)
Where
P
D
= Internal power dissipation
Io = Output current
Vo = Output voltage
η
= Efficiency
Example: R-745.0P , at Vin = 28Vdc , Vo = 5Vdc ,η=91% (see "Selection Guide" table)
(a) When Ta = 60°C , P
D
= 1.4 Watt (see beside diagram)
Io = 1.4(W) / 5(V) × (1-0.91) = 3.11(A)
(b) When Ta = 85°C , P
D
= 1 Watt (see beside diagram)
Io = 1(W) / 5(V) × (1-0.91) = 2.222(A)
(c)
At Vin = 12Vdc efficiency = 94% (see "Selection Guide" table)
When Ta = 85°C , P
D
= 1 Watt (see beside diagram)
Io = 1(W) / 5(V) × (1-0.94) =3.33(A)
I-56
REV: 2/2016
Ambient Temperature (°C)
90
85
80
60
40
20
0
0.5
1
1.4
Internal Power Dissipation (W)
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INNOLINE
DC/DC-Converter
Characteristics
R-72xx / R-73xx
Ripple VS Vin
R-7xxxP_D
Series
R-74xx
Ripple VS Vin
50
Vo=15V
Vo=12V
Vo=6.5V
Vo=9V
Vo=5V
100
6.5V
50
5V
3.3V
( Vo )
5
10
15
20
25
28
25
Ripple (mV)
( Vo )
5
10
15
20
25
28
Vin ( V )
Ripple Vs
Vin
Ripple (mV)
Vo=3.3V
Vin ( V )
Ripple Vs
Vin
R-72xx / R-73xx
Efficiency VS Vin
100
15V
6.5V
5V
3.3V
R-74xx
Efficiency VS Vin
100
Vo=6.5V
Vo=5V
Vo=3.3V
50
50
Efficiency (%)
Efficiency (%)
R-7xxx
( Vo )
5
10
15
20
25
28
( Vo )
5
10
15
20
25
28
Vin ( V )
Efficiency Vs
Vin
Vin ( V )
Efficiency Vs
Vin
R-72xx / R-73xx / R-74xx
Efficiency / Load Vin=Min
R-72xx / R-73xx / R-74xx
Efficiency / Load Vin=Max
100
6.5V
5.0V
3.3V
100
90
80
15V
5.0V
3.3V
90
Efficiency (%)
Efficiency (%)
80
( Vo )
70
1
3
2
Efficiency Vs Iout (Vin=Min)
4
60
( Vo )
1
3
2
Efficiency Vs Iout (Vin=Max)
4
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REV: 2/2016
I-57
INNOLINE
DC/DC-Converter
EMC EN55022 Filter Suggestion
R-7xxxP_D
Series
L2
R-746.5
C1 and C2
33μF
Class A
Vin= 24VDC
Input
C1
L2
C2
Output
L2
0.45mH CMC
Class B
Vin= 24VDC
C4
L1
L2
R-746.5
C1 and C2
33μF
C3
10μF
C3
C4
10μF 1NF/2kV
Input
C3
C1
L2
C2
Output
L1
2mH
L2
0.45mH CMC
R-7xxx
Package Style and Pinning (mm)
SIP12 PIN Package
32.2
9.1
32.2
9.1
15.00
RECOM
R-723.3P
1 2 3 4 5 6 7 8 9 10 11 12
Front
(Label)
15.00
RECOM
R-723.3D
1 2 3 4 5 6 7 8 9 10 11 12
Front
(Label)
MAX 17.00
0.20
4.00
2.13
0.70
2.54
0.20
2.13
0.70
2.54
Bottom
View
Bottom
View
0.7
4.0
0.70
Pin Connections
Pin #
1
2, 3, 4
5, 6, 7, 8
9 , 10, 11
12
Name
ON / OFF
Vin
GND
Vout
Vout-Adj
Description
Input pin : Active low (less than 0.8V) to disable the device
Power input
Input and output ground (common)
Power output
With external resistors R1,R2 to selected output voltage
Tolerance:
xx.x
xx.xx
±0.5mm
±0.25mm
I-58
REV: 2/2016
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INNOLINE
DC/DC-Converter
Table 1: Adjustment Resistor Values
2ADC
3ADC
4ADC
Vout (nominal)
Vout (adj)
2.5
3.0
3.2
3.3
3.4
3.6
3.9
4.5
4.9
5.0
5.1
5.5
6.0
6.5
7.0
7.5
8.0
9.0
10
11
12
13
14
15
16
17
18
2.2KΩ
390Ω
4.5KΩ
2.2KΩ
31KΩ
13KΩ
36KΩ
11KΩ
4.7KΩ
1.6KΩ
820Ω
680Ω
560Ω
190Ω
28KΩ
2.6KΩ
R1
8.5KΩ
33KΩ
110KΩ
470Ω
1.6KΩ
2.2KΩ
3.0KΩ
4.7KΩ
8.5KΩ
30KΩ
220KΩ
11KΩ
12KΩ
20KΩ
47KΩ
R-723.3P/D
R-733.3P/D
R-743.3P/D
3.3Vdc
R2
R1
R-725.0P/D
R-735.0P/D
R-745.0P/D
5.0Vdc
R2
R1
R-726.5P/D
R-736.5P/D
R-746.5P/D
6.5Vdc
R2
9.0Vdc
R1
R2
R-729.0P/D
R-739.0P/D
R-7xxxP_D
Series
R-7212P/D
R-7312P/D
R-7215P/D
R-7315P/D
12Vdc
R1
R2
15Vdc
R1
R2
R-7xxx
20KΩ
47KΩ
2.4KΩ
390Ω
36KΩ
76KΩ
2.6KΩ
860Ω
Standard Application Circuit
Vin
OFF
1µF
(Optional)
ON
TTL
Com
2, 3, 4
C1
1
R-72XX
R-73XX
R-74XX
5, 6, 7,8
9, 10, 11
(Adjust down)
R1
Vout
C2
12
Add a blocking diode to Vout if
current can flow backwards into
the output, as this can damage
the converter.
Protection diodes are required
for high capacitive loads.
Refer to R-5xxxA Datasheet (see
Optional Diode Protection Circuit)
for circuit suggestions.
Q1
(Adjust up)
R2
100µF
ESR= 150mW max.
(Required)
Com
The product information and specifications are subject to change without prior notice. RECOM products are not authorized for use in safety-critical applications (such as life support) without RECOM’s explicit
written consent. A safety-critical application is defined as an application where a failure of a RECOM product may reasonably be expected to endanger or cause loss of life, inflict bodily harm or damage property. The buyer
shall indemnify and hold harmless RECOM, its affiliated companies and its representatives against any damage claims in connection with the unauthorized use of RECOM products in such safety-critical applications.
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