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Электронный компонент: DVGF283R315TF-XXX

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DVGF+2800T Series
1X047DSD
11314 4th Avenue
West, Suite 206
Everett, WA 98204
http://www.vpt-inc.com
Sales Information:
Phone: (425) 353-3010
Fax: (425) 353-4030
E-mail: vptsales@vpt-inc.com
1
HIGH RELIABILITY HYBRID
DC-DC CONVERTERS

DESCRIPTION

The DVGF+ series of high reliability DC-DC
converters is operable over the full military (-55 C to
+125 C) temperature range with no power derating.
Unique to the DVGF+ series is a fault tolerant
magnetic feedback circuit. Operating at a nominal
fixed frequency of 325 kHz per stage, these
regulated, isolated units utilize well-controlled
undervoltage lockout circuitry to eliminate slow start-
up problems.

These converters are designed and manufactured in
a facility qualified to ISO9001 and certified to MIL-
PRF-38534 and MIL-STD-883.

This product may incorporate one or more of the
following U.S. patents:

5,784,266
5,790,389
5,963,438
5,999,433
6,005,780
6,084,792
6,118,673
FEATURES
High
Reliability
Very Low Output Noise
Wide Input Voltage Range: 15 to 50 Volts per
MIL-STD-704
Up to 12.5 Watts Output Power
Fault Tolerant Magnetic Feedback Circuit
NO Use of Optoisolators
Undervoltage
Lockout
Indefinite Short Circuit Protection
Current Limit Protection
Industry Standard Pinout
High Input Transient Voltage: 80 Volts for 1 sec
per MIL-STD-704A
Precision Projection Welded Hermetic Package
High Power Density: > 23 W/in
3
Custom Versions Available
Additional Environmental Screening Available
Meets MIL-STD-461C and MIL-STD-461D EMC
Requirements When Used With a DVMH28 EMI
Filter
Flanged and Non-flanged Versions Available.
MIL-PRF-38534 Element Evaluated
Components

Figure 1
DVGF+2800T / DVGF+2800TF DC-DC Converter
(Not To Scale)
DVGF+2800T Series
1X047DSD
2
SPECIFICATIONS
(T
CASE
= -55C to +125C, V
IN
= +28V 5%, Full Load
5
, Unless Otherwise Specified)
ABSOLUTE MAXIMUM RATINGS
Input Voltage (Continuous)
50 V
DC
Junction Temperature Rise to Case
+15C
Input Voltage (Transient, 1 second)
80 Volts
Storage Temperature
-65C to +150C
Output Power
12.5 Watts
Lead Solder Temperature (10 seconds)
270C
Power Dissipation (Full Load, T
CASE
= +125C)
6.5 Watts
Weight (Maximum) (Un-Flanged / Flanged)
(26 / 29) Grams
DVGF+283R312T DVGF+283R315T
Parameter Conditions
Min Typ Max Min Typ Max
Units
STATIC
Continuous
15 28 50 15 28 50 V
INPUT
Voltage
Transient, 1 sec
4
- - 80 - - 80 V
Inhibited
- 3.5 5.0 - 3.5 5.0
mA
Current
No
Load
- - 50 - - 50
mA
Ripple Current
Full Load
5
,
20Hz
to
10MHz
- - 50 - - 50
mA
p-p
Inhibit Pin Input
4
0 - 1.5 0 - 1.5
V
Inhibit Pin Open Circuit Voltage
4
13 15 17 13 15 17 V
UVLO Turn On
10.5
-
14.5
10.5
-
14.5
V
UVLO Turn Off
4
9 - 13 9 - 13 V
V
MAIN
3.267 3.30 3.333 3.267 3.30 3.333 V
+V
AUX
11.88 12.0 12.12 14.85 15.0 15.15 V
-V
AUX
T
CASE
= 25C
-12.24 -12.0 -11.76 -15.30 -15.0 -14.70 V
V
MAIN
3.25 3.30 3.35 3.25 3.30 3.35 V
+V
AUX
11.64 12.0 12.36 14.55 15.0 15.45 V
OUTPUT
Voltage
-V
AUX
T
CASE
= -55C to +125C
-12.48 -12.0 -11.52 -15.60 -15.0 -14.40 V
Total
0
-
12.5
0
-
12.5
W
V
MAIN
0 - 5 0 - 5 W
Power
4
V
AUX
6
0 - 7.5 0 - 7.5
W
V
MAIN
0 - 1.5 0 - 1.5
A
Current
3
V
AUX
Either Output
6
0 -
0.44
0 -
0.35
A
V
MAIN
- 40 50 - 40 50
mV
p-p
Ripple Voltage
V
AUX
Full Load
5
, 20Hz to 10MHz
- 60 80 - 60 80
mV
p-p
V
MAIN
- 10 20 - 10 20
mV
Line Regulation
V
AUX
V
IN
= 15V to 50V
- 15 50 - 15 50
mV
V
MAIN
- 5 50 - 5 50 mV
+V
AUX
- 10 50 - 10 50
mV
Load Regulation
-V
AUX
No Load to Full Load
5,8
- 20
200 - 20
200
mV
Cross Regulation
V
AUX
+V
OUT
= 30%, -V
OUT
= 70%
+V
OUT
= 70%, -V
OUT
= 30%
- - 450 - - 450
mV
EFFICIENCY Full
Load
5
73 75 - 73 75 - %
Overload
4
- - 7.5 - - 7.5
W
LOAD FAULT POWER DISSIPATION
Short
Circuit
- - 7.5 - - 7.5
W
CAPACITIVE LOAD
4
- - 500 - - 500
F
SWITCHING
FREQUENCY
550 650 700 550 650 700 kHz
SYNCHRONIZATION FREQUENCY
7
700 750 800 700 750 800 kHz
ISOLATION 500
V
DC
, T
CASE
=
25C 100 - - 100 - - M
MTBF (MIL-HDBK-217F)
AIF @ T
C
=
55C
- 350 - - 350 - kHrs
DVGF+2800T Series
1X047DSD
3
SPECIFICATIONS
(T
CASE
= -55C to +125C, V
IN
= +28V 5%, Full Load
5
, Unless Otherwise Specified)
ABSOLUTE MAXIMUM RATINGS
Input Voltage (Continuous)
50 V
DC
Junction Temperature Rise to Case
+15C
Input Voltage (Transient, 1 second)
80 Volts
Storage Temperature
-65C to +150C
Output Power
12.5 Watts
Lead Solder Temperature (10 seconds)
270C
Power Dissipation (Full Load, T
CASE
= +125C)
6.5 Watts
Weight (Maximum) (Un-Flanged / Flanged)
(26 / 29) Grams
DVGF+283R312T DVGF+283R315T
Parameter Conditions
Min Typ Max Min Typ Max
Units
DYNAMIC
V
MAIN
- 200
400 - 200
400
mV
PK
Load Step Output Transient
V
AUX
- 400
500 - 400
500
mV
PK
V
MAIN
- 450
650 - 450
650
Sec
Load Step Recovery
2
V
AUX
Half Load to Full Load
- 300
350 - 300
350
Sec
V
MAIN
- 50
150 - 50
150
mV
PK
Line Step Output Transient
4
V
AUX
- 150
250 - 150
250
mV
PK
V
MAIN
- 100
200 - 100
200
Sec
Line Step Recovery
2, 4
V
AUX
V
IN
= 15V to 50V
- 100
300 - 100
300
Sec
Turn On Delay
- - 17 - - 17
mSec
V
MAIN
- - 15 - - 15
mV
PK
Turn On Overshoot
V
AUX
V
IN
= 0V to 28V
- - 50 - - 50
mV
PK
Notes: 1. This note intentionally not used.
2. Time for output voltage to settle within 1% of its nominal value.
3. Derate linearly to 0 at 135C.
4. Verified by qualification testing.
5. 5W on V
MAIN
and 7.5W on V
AUX
.
6. Up to 70% of the total auxiliary power or current can be drawn from either of the auxiliary outputs.
7. Synchronization is TTL signal with V
SYNC MAX
= 6V.
8. -V
AUX
is 5% Load to Full Load at -55C.
DVGF+2800T Series
1X047DSD
4
BLOCK DIAGRAM
PRIMARY
HOUSEKEEPING
SUPPLY
DUAL PWM
CONTROLLER
PIN 1
INH
TRANSFORMER
ISOLATED
POWER
FEEDFORWARD
TRANSFORMER
ISOLATED
ERROR SIGNAL
FEEDBACK
VOLTAGE
ERROR
AMPLIFIERS
SECONDARY
HOUSKEEPING
SUPPLY
IN COM
PIN 8
28V IN
PIN 9
+V MAIN
PIN 2
OUT COM
PIN 3
+V AUX
PIN 4
-V AUX
PIN 5
SYNC
PIN 7
Figure 2
DVGF+2800T Series
1X047DSD
5
CONNECTION DIAGRAM
8
IN COM
1
INH
9
28V IN
4
+V AUX
3
OUT COM
LOAD
+
-
28 Vdc
5
-V AUX
LOAD
SYNC
7
2
+V MAIN
LOAD
Figure 3

INHIBIT DRIVE CONNECTION DIAGRAMS
8
IN COM
1
INH
9
28V IN
OPTIONAL
CAPACITOR
BIAS
14V
15K
8
IN COM
1
INH
9
28V IN
OPTIONAL
CAPACITOR
BIAS
14V
15K
OPTOISOLATOR


Figure 4
Internal Inhibit Circuit and Recommended Drive
Figure 5
Isolated Inhibit Drive
(Shown with optional capacitor for turn-on delay)
(Shown with optional capacitor for turn-on delay)