VRG8653

Voltage Regulator
VRG8653/54
Dual 3A LDO Adjustable Positive/Negative Voltage Regulator
Released Datasheet
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FEATURES
 Manufactured using
Space Qualified RH1084 and RH1185 die
 Packaging – Hermetic metal
 Radiation performance
– Thru-hole or Surface mount
- Total dose > 100 krad(Si)
– 8 Leads, .755"L x .415"W x .200"Ht
 Two-Independent voltage regulators
– Power package
 Thermal shutdown
– Weight - 6 gm max
 Adjustable Output Voltages
 Designed for aerospace and high reliability space
applications
 Negative regulator features (RH1185)
– Output voltage adjustable: -2.37 to -25V
– Dropout voltage: 1.05V at 3.0A
– 5-Terminal
– Output current: 3.0A
– Voltage reference: -2.370V ±3.5%
– Load regulation: 0.8% max
– Line regulation: 0.02% max
– Ripple rejection: >60dB
 Positive regulator features (RH1084)
– Output voltage adjustable: 1.25V to 23V
– Dropout voltage: 1.80V at 3.0A
– 3-Terminal
– Output current: 3.0A
– Voltage reference: 1.25V +2%, -3.2%
– Load regulation: 0.35% max
– Line regulation: 0.25% max
– Ripple rejection: >60dB
 Radiation Hardness Assurance Plan: DLA Certified to MIL-PRF-38534, Appendix G.
DESCRIPTION
The VRG8653/54 consists of one Positive Adjustable (RH1084) and one Negative Adjustable (RH1185) LDO voltage
regulator, both capable of supplying 3.0A over the output voltage range as defined under recommended operating
conditions. The VRG8653/54 offers excellent line and load regulation specifications and ripple rejection. There is full
electrical isolation between the regulators and each regulator to the package.
The VRG8653/54 serves a wide variety of applications including SCSI-2 Active Terminator, High Efficiency Linear
Regulators, Post Regulators for Switching Supplies, Constant Current Regulators, Battery Chargers and
Microprocessor Supply.
The VRG8653/54 has been specifically designed to meet exposure to radiation environments and is configured for a
Thru-Hole 8 lead metal power package and the VRG8654 is configured for a Surface Mount 8 lead metal power
package. It is guaranteed operational from -55°C to +125°C. Available screened in accordance with MIL-PRF-38534,
the VRG8653/54 is ideal for demanding military and space applications.
Dropout (VIN - VOUT) decreases at lower load currents for both regulators.
1
3
VOUT
ADJ
RH1084
7
8
RH1185
VOUT
VIN
4
RF
2
FB
6
VIN
GND
Positive
Regulator
Negative
Regulator
5
FIGURE 1 – BLOCK DIAGRAM / SCHEMATIC
SCD8653
Rev E
1
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ABSOLUTE MAXIMUM RATINGS
Rating
Parameter
Input Voltage
RH1084
RH1185
+25
-35
Lead temperature (soldering 10 Sec)
Units
VDC
300
°C
Input Output Differential
25
30
VDC
Load Current, maximum
+6.0
-4.5
A
-
-7
VDC
+25
-30
VDC
Feedback & Reference Voltage
Output Voltage
ESD (MIL-STD-883, M3015, Class 2)
2000 to 3999
V
Operating Junction Temperature Range
-55 to +150
°C
Storage Temperature Range
-65 to +150
°C
5
°C/W
Thermal Resistance (Junction to Case) JC
NOTICE: Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are
stress rating only; functional operation beyond the "Operation Conditions" is not recommended and extended exposure
beyond the "Operation Conditions" may effect device reliability.
RECOMMENDED OPERATING CONDITIONS
Range
Parameter
Units
RH1084
RH1185
Output Voltage Range
1.25 to 23
-2.37 to -25
VDC
Input Output Differential
1.8 to 24
1.05 to 29
VDC
Case Operating Temperature Range
-55 to +125
°C
ELECTRICAL PERFORMANCE CHARACTERISTICS
UNLESS OTHERWISE SPECIFIED: -55°CTC+125°C
Parameter
Conditions (PPMAX)
Symbol
Min
Max
Units
1.210
1.275
V
RH1084 Positive LDO section only 1/
Reference Voltage 2/, 3/
VREF
Line Regulation 2/, 3/
VOUT ILOAD = 10mA, 1.5V < (VIN - VOUT) < 15V
VIN
-
0.25
%
Load Regulation 2/, 3/
VOUT 10mA < IOUT < 3.0A, (VIN - VOUT) = 3V
IOUT
-
0.35
%
1.5V < (VIN - VOUT)< 15V, 10mA < IOUT < 3.0A
Dropout Voltage 2/, 4/
VDROP1 VREF = 1%, IOUT = 5.0A
-
1.8
V
Dropout Voltage
VDROP2 VREF = 1%, IOUT = 3.0A
-
1.4
V
-
120
µA
10 mA < IOUT < 3.0A, 1.5V < (VIN - VOUT) < 15V
-
5
µA
10
mA
Adjust Pin Current 2/
-
Adjust Pin Current Change
2/
-
Minimum Load Current 5/
IMIN
(VIN - VOUT) = 25V
-
Current Limit
ICL
(VIN - VOUT) = 5V
5.25
Ripple Rejection 3/
-
IOUT = 0.5A, (VIN - VOUT) = 3V, f = 120Hz,
CADJ = COUT = 25µF
Thermal Regulation
-
30ms pulse, TC = +25°C
SCD8653
Rev E 3/24/2016
2
A
60
-
dB
-
0.04
%/W
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ELECTRICAL PERFORMANCE CHARACTERISTICS (Continued)
UNLESS OTHERWISE SPECIFIED: -55°CTC+125°C
Parameter
Conditions (PPMAX)
Min
Max
Units
1mA < IOUT < 3A, VIN - VOUT = 1.2V to 28V, VOUT = -5V
-2.29
-2.45
V
IOUT = 0.5A, VOUT = -5V
-
0.425
V
IOUT = 3A, VOUT = -5V
-
1.05
V
Symbol
RH1185 Negative LDO section only 9/
Reference Voltage
(At pin 6) 2/
VREF
Dropout Voltage 2/, 6/
VDROP
Line Regulation 2/, 10/
VOUT 1.0V < VIN - VOUT < 20V, VOUT = -5V
VIN
-
0.02
%/V
Load Regulation 2/, 10/
VOUT 5mA < IOUT < 3A, VIN - VOUT = 1.5V to 10V, VOUT = -5V
IOUT
-
0.8
%
Minimum Input Voltage 2/,
7/
VIN MIN
IOUT = 3A , VOUT = VREF
-
-4.50
V
1.5V < VIN - VOUT < 10V
3.3
4.55
A
VIN - VOUT = 15V
2.0
4.5
A
VIN - VOUT = 20V
1.0
3.1
A
RLIM = 5K, (VIN - VOUT) = 1.5V 12/
2.7
3.7
A
RLIM = 15K, (VIN - VOUT) = 1.5V 12/
0.9
1.6
A
IOUT = 5mA, VOUT = VREF, -4V < VIN < -25V
-
3.5
mA
VIN – VOUT = VSAT 11/
-
35
mA/A
VIN – VOUT  2V
-
21
mA/A
60
-
dB
Internal Current Limit (See
Graph for Guaranteed
Curve - See Figure 6) 2/,
13/
ICL
External Current Limit 2/
ILIM
Quiescent Supply Current
2/, 8/
IQ
Supply Current
Change with Load 2/
Ripple Rejection
IQ
-
IOUT = 0.5A, VIN - VOUT = 3V, f = 120Hz,
Notes
1/ The manufacturer’s output current rating for the RH1084MK positive regulator integrated circuit is 5.0 Amps. For Compliance
with the Current Density specification of MIL-STD-883 Rev. C, the electrical performance characteristics are specified at an
output current of 3.0 Amps.
2/ Specification derated to reflect total dose exposure to 100 krad(Si) at +25°C.
3/ Line and load regulation are guaranteed up to the maximum power dissipation of 25W. Power dissipation is determined by the
input/output differential voltage and the output current. Guaranteed maximum power dissipation will not be available over the
full input/output voltage range.
4/ Dropout voltage is specified over the full output current range of the device.
5/ Not tested. Shall be guaranteed by design, characterization, or correlation to other tested parameters.
6/ Dropout voltage is tested by reducing input voltage until the output drops 1% below its nominal value. Tests are done at 0.5A
and 3A. The power transistor looks basically like a pure resistance in this range so that minimum differential at any
intermediate current can be calculated by interpolation; VDROPOUT = 0.25V + (0.25 x IOUT). For load current less than 0.5A,
see Figure 4.
7/ “Minimum input voltage” is limited by base emitter voltage drive of the power transistor section, not saturation as measured in
Note 6. For output voltages below 4V, “minimum input voltage” specification may limit dropout voltage before transistor
saturation limitation.
8/ Supply current is measured on the ground pin, and does not include load current, RLIM, or output divider current.
9/ The 25W power level is guaranteed for an input-output voltage of 8.3V to 17V. At lower voltages the 3A limit applies, and at
higher voltages the internal power limiting may restrict regulator power below 25W.
10/ Line and load regulation are measured on a pulse basis with a pulse width of 2ms, to minimize heating. DC regulation will be
affected by thermal regulation and temperature coefficient of the reference.
11/ VSAT is the maximum specified dropout voltage; 0.25V +(0.25 x IOUT).
12/ Current limit is programmed with a resistor from REF pin to GND pin. RLIM = 15K/ILIM.
13/ Pulsed @ <10% duty cycle @ +25°C
SCD8653
Rev E 3/24/2016
3
Cobham Semiconductor Solutions
www.cobham.com/HiRel
60
50
40
Maximum Power
Dissipation
(Watts)
30
Both Regulators
20
1 Regulator
10
0
0
20
40
60
80
100
120
140
Case Temperature (°C)
FIGURE 2 – MAXIMUM POWER vs CASE TEMPERATURE
The maximum Power dissipation is limited by the thermal shutdown function of each regulator chip in the
VRG8653/54. The graph above represents the achievable power before the chip shuts down. The first line in the
graph represents the maximum power dissipation of the VRG8653/54 with one regulator on (the other off) and the
other line represents both regulators on dissipating equal power. If both regulators are on and one regulator is
dissipating more power that the other, the maximum power dissipation of the VRG8653/54 will fall between the two
lines. This graph is based on the maximum junction temperature of 150°C and a thermal resistance (JC) of 5°C/W.
SCD8653
Rev E 3/24/2016
4
Cobham Semiconductor Solutions
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FIGURE 3 – RH1084 DROPOUT VOLTAGE
TYPICAL CURVE
FIGURE 4 – RH1185 DROPOUT VOLTAGE
TYPICAL CURVE
See Note 1/, pg 3.
FIGURE 5 – RH1084 SHORT CIRCUIT CURRENT
SCD8653
Rev E 3/24/2016
FIGURE 6 – RH1185 INTERNAL CURRENT LIMIT
5
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VIN
8 VRG8653/54 7
Vout
(RH1084)
10µF
Tant.
R1
VREF
1
VREF = 1.25V, IADJ = 55µA
22µF
Tant.
ADJ
+Reg = VOUT = VREF (1+R2/R1) + (IADJ x R2)
R2
FIGURE 7 – BASIC RH1084 POSITIVE ADJUSTABLE REGULATOR APPLICATION
The RH1185 output voltage is set by two external resistors.
Internal reference voltage is trimmed to
2.37V so that a standard 1% 2.37k resistor (R1) can be
used to set divider current at 1mA. R2 is then selected
from:
+
+
+
PARASITIC
LEAD RESISTANCES
C1
VIN
+
5
2
– 2.37) R1
(V
R2 = OUT
VREF
REF
GND
FB
for R1 = 2.37k and VREF = 2.37V, this reduces to:
4
–
V
– 2.37
R2 = OUT -3
10
VOUT
R2 WHEN R1 = 2.37k
2.5V
3.3V
.
5V
12V
15V
130Ω
930Ω
2.67k
9.76k
12.7k
VIN
6
VRG8653/54
RH1185
(RH1185)
VOUT
suggested values of 1% resistors are shown.
– rb +
IGND
ra
RLIM
C2
R1*
2.37k
LOAD
VOUT
R2
3
–
*R1 SHOULD BE CONNECTED DIRECTLY TO GROUND LEAD, NOT TO THE LOAD,
SO THAT ra ≈ 0Ω. THIS LIMITS THE OUTPUT VOLTAGE ERROR TO (IGND)(rb).
ERRORS CREATED BY ra ARE MULTIPLIED BY (1 + R2/R1). NOTE THAT VOUT
INCREASES WITH INCREASING GROUND PIN CURRENT. R2 SHOULD BE CONNECTED
DIRECTLY TO LOAD FOR REMOTE SENSING. C1 = C2 > 2µF Tantalum.
SETTING OUTPUT VOLTAGE
R1 & R2 LOCATION & PROPER CONNECTION OF
POSITIVE SENSE LEAD
FIGURE 8 – BASIC RH1185 ADJUSTABLE REGULATOR APPLICATION
SCD8653
Rev E 3/24/2016
6
Cobham Semiconductor Solutions
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TABLE I – PIN NUMBERS vs FUNCTION
PIN
FUNCTION
1
POS_ADJ_1
2
NEG_REF_2
3
NEG_VOUT_2
4
NEG_VIN_2
5
NEG_GND_2
6
NEG_FB_2
7
POS_VOUT_1
8
POS_VIN_1
.300
.090
8X
.100
.108
ø .010
M
CBA
.150 REF.
ø.145 THRU
2x .028
MAX.
7
8
6
2° MAX. TYP.
5
.720 ±.020
MEASURED
LEAD TIP
.415
.2075
–C–
2
1
3
4
ESD/PIN 1
IDENT
.230 MIN
.515
R.065 TYP.
4 PLCS
.632
.755
±.003
.122
–B–
ø .010
BCA
.220 MAX.
±.005
–A–
.040
.030 DIA.
±.002
Notes:
1. Dimension Tolerance: ±.005 inches
2. Package contains BeO substrate
3. Case electrically isolated
ø .010
M
CBA
FIGURE 9 – PACKAGE OUTLINE — THRU-HOLE POWER PACKAGE
SCD8653
Rev E 3/24/2016
7
Cobham Semiconductor Solutions
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TABLE II – PIN NUMBERS vs FUNCTION
PIN
FUNCTION
1
POS_ADJ_1
2
NEG_REF_2
3
NEG_VOUT_2
4
NEG_VIN_2
5
NEG_GND_2
6
NEG_FB_2
7
POS_VOUT_1
8
POS_VIN_1
.300
.090
8X
.100
.108
ø .010
CBA
ø.145 THRU
2x .028
MAX.
.150 REF.
M
7
8
6
.060 ±.005
5
.415
.886 ±.020
.2075
–C–
R.065 TYP.
4 PLCS
2
1
3
4
ESD/PIN 1
IDENT
.515
.632
.755
±.003
.122
–B–
ø .010
BCA
.220 MAX.
±.005
–A–
.020±.005
.030 DIA.
±.002
ø .010
M
CBA
.040
Notes:
1. Dimension Tolerance: ±.005 inches
2. Package contains BeO substrate
3. Case electrically isolated
FIGURE 10 – PACKAGE OUTLINE — SURFACE MOUNT POWER PACKAGE
SCD8653
Rev E 3/24/2016
8
Cobham Semiconductor Solutions
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ORDERING INFORMATION
Model
VRG8653 - 7
DLA SMD #
Screening
-
Commercial Flow, +25°C testing only
Package
VRG8653- 201-1S
5962-1021301KUC
VRG8653- 201-2S
5962-1021301KUA
VRG8653- 901-1S
5962R1021301KUC
VRG8653- 901-2S
5962R1021301KUA
In accordance with DLA Certified RHA Program Plan to RHA
Level "R", 100 krad(Si)
-
Commercial Flow, +25°C testing only
VRG8654 - 7
VRG8654- 201-1S
5962-1021301KZC
VRG8654- 201-2S
5962-1021301KZA
VRG8654- 901-1S
5962R1021301KZC
VRG8654- 901-2S
5962R1021301KZA
SCD8653
Rev E 3/24/2016
8 Lead
Thru-Hole
Power Pkg
In accordance with DLA SMD
In accordance with DLA SMD
8 Lead
Surface Mount
Power Pkg
In accordance with DLA Certified RHA Program Plan to RHA
Level "R", 100 krad(Si)
9
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REVISION HISTORY
Date
Revision
03/24/2016
E
SCD8653
Rev E 3/24/2016
Change Description
Import into Cobham format
10
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Datasheet Definition
Advanced Datasheet - Product In Development
Preliminary Datasheet - Shipping Prototype
Datasheet - Shipping QML & Reduced Hi-Rel
For detailed performance characteristic curves, applications information and typical applications, see the latest
datasheets for their RH1084 & RH1185, which are available on-line at www.linear.com.
LT, LTC, Linear Technology and the Linear logo are registered trademarks and RH1084 & RH1185 are copyright Linear Technology Corporation.
EXPORT CONTROL:
This product is controlled for export under the Export Administration Regulations (EAR), 15 CFR Parts 730-774.
A license from the Department of Commerce may be required prior to the export of this product from the United States.
Cobham Semiconductor Solutions
35 S. Service Road
Plainview, NY 11803
E: [email protected]
T: 800 645 8862
Aeroflex Plainview Inc., DBA Cobham Semiconductor Solutions, reserves the right to make changes to any products and services described herein
at any time without notice. Consult Aeroflex or an authorized sales representative to verify that the information in this data sheet is current before
using this product. Aeroflex does not assume any responsibility or liability arising out of the application or use of any product or service described
herein, except as expressly agreed to in writing by Aeroflex; nor does the purchase, lease, or use of a product or service from Aeroflex convey a
license under any patent rights, copyrights, trademark rights, or any other of the intellectual rights of Aeroflex or of third parties.
SCD8653
Rev E 3/24/2016
11
Cobham Semiconductor Solutions
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