BIAS

Power

Stage

OUT

÷ 2

Reset

800kHz

Oscillator

Watch-dog/

start-up

PSU

Thermal

Shutdown

SYNC

OUT

SYNC

OUT

Power Controller IC

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Internet: http://www.burr-brown.com/ · FAXLine: (800) 548-6133 (US/Canada Only) · Cable: BBRCORP · Telex: 066-6491 · FAX: (520) 889-1510 · Immediate Product Info: (800) 548-6132

Miniature 15V Input, 1W Isolated

UNREGULATED DC/DC CONVERTERS

1997 Burr-Brown Corporation

PDS-1382C

Printed in U.S.A. January, 1999

FEATURES

STANDARD JEDEC PLASTIC PACKAGE

LOW PROFILE: 0.15" (3.8mm)

SYNCHRONIZABLE

OUTPUT SHORT CIRCUIT PROTECTION

THERMAL SHUTDOWN

STARTS INTO ANY CAPACITIVE LOAD

EFFICIENCY: 76% (at Full Load)

1000Vrms ISOLATION

400kHz SWITCHING

93 MILLION HOURS MTTF

AVAILABLE IN TAPE AND REEL

DESCRIPTION

The DCP0115 family is a series of high efficiency,
15V input isolated DC/DC converters. In addition to
1W nominal galvanically isolated output power capa-
bility, the range of DC/DCs are also fully
synchronizable. The devices feature thermal shutdown,
and overload protection is implemented via watchdog
circuitry. Advanced power-on reset techniques give
superior reset performance and the devices will start
into any capacitive load up to full power output.

The DCP01 family is implemented in standard-molded
IC packaging, giving outlines suitable for high volume
assembly.

DCP0115

Series

APPLICATIONS

POINT OF USE POWER CONVERSION

GROUND LOOP ELIMINATION

DATA ACQUISITION

INDUSTRIAL CONTROL AND
INSTRUMENTATION

TEST EQUIPMENT

DCP0115

DCP0115

SPECIFICATIONS

At T

= +25

C, V

= +15V, unless otherwise specified.

DCP0115 SERIES

PARAMETER

CONDITIONS

MIN

TYP

MAX

UNITS

OUTPUT
Power

+ 4%

100% Full Load

0.92

Voltage (V

NOM

)

(1)

DCP011512D

75% Full Load

12.6

DCP011515D

75% Full Load

15.75

Voltage vs Temperature

0.08

Short Circuit Duration

10%

Indefinite

Ripple

= O/P Capacitor = 10

mVp-p

100% Full Load

INPUT
Nominal Voltage (V

)

Voltage Range

Supply Current

100% Full Load

Reflected Ripple Current

= I/P Capacitor = 1

mArms

50% Full Load

ISOLATION
Voltage

(2)

1s Flash Test

kVrms

Continuous Voltage

(3)

kVrms

Insulation Resistance

Input/Output Capacitance

2.5

LOAD REGULATION
DCP011512D

10% to 100% Load

10% to 25% Load

25% to 75% Load

75% to 100% Load

DCP011515D

10% to 100% Load

10% to 25% Load

25% to 75% Load

75% to 100% Load

SWITCHING/SYNCHRONIZATION
Oscillator Frequency (f

OSC

)

Switching Frequency = f

OSC

800

kHz

Sync Input Low

0.8

Sync Input Current

SYNC

= +2V

Reset Time

3.8

SYNC

OUT

Frequency

400

kHz

GENERAL
No Load Current

DCP011512D

0% Load

DCP011515D

0% Load

Efficiency

DCP011512D

100% Full Load

10% Full Load

DCP011515D

100% Full Load

10% Full Load

MTTF

(3)

= +85

136,000

hrs

= +55

2,630,000

hrs

= +25

92,600,000

hrs

Weight

14-Pin PDIP

1.08

THERMAL SHUTDOWN
Die Temperature

115

140

Shutdown Current

TEMPERATURE RANGE
Operating

100

NOTES: (1) 100 % load current = 1W/V

NOM

typical. (2) Rated working voltage = 130Vrms (IEC950 convention). (3) Life test data.

The information provided herein is believed to be reliable; however, BURR-BROWN assumes no responsibility for inaccuracies or omissions. BURR-BROWN assumes
no responsibility for the use of this information, and all use of such information shall be entirely at the user's own risk. Prices and specifications are subject to change
without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. BURR-BROWN does not authorize or warrant
any BURR-BROWN product for use in life support devices and/or systems.

DCP0115

Top View

DIP

PIN CONFIGURATION (Dual Out)

PIN DEFINITION

PIN #

PIN NAME

DESCRIPTION

Voltage Input.

Input Side Common.

Output Side Common.

OUT

+Voltage Out.

OUT

Voltage Out.

SYNC

OUT

Unregulated 400kHz Output from Transformer.

SYNC

Synchronization Pin.

DCP0115

OUT

SYNC

OUT

ELECTROSTATIC
DISCHARGE SENSITIVITY

This integrated circuit can be damaged by ESD. Burr-Brown
recommends that all integrated circuits be handled with
appropriate precautions. Failure to observe proper handling
and installation procedures can cause damage.

ESD damage can range from subtle performance degrada-
tion to complete device failure. Precision integrated circuits
may be more susceptible to damage because very small
parametric changes could cause the device not to meet its
published specifications.

Input Voltage ........................................................................................ 18V
Storage Temperature ...................................................... 60

C to +150

Lead Temperature (soldering, 10s) ................................................. 300

ABSOLUTE MAXIMUM RATINGS

DCP01

Basic Model Number: 1W Product
Voltage Input:

15V In

Voltage Output:

15V Out

Dual Output:
Package Code:

P = 14-Pin Plastic DIP
P-U = 14-Pin Plastic DIP Gull Wing

ORDERING INFORMATION

(

)

PACKAGE

SPECIFIED

DRAWING

TEMPERATURE

PACKAGE

ORDERING

TRANSPORT

PRODUCT

PACKAGE

NUMBER

(1)

RANGE

MARKING

NUMBER

(2)

MEDIA

Dual
DCP011512D

14-Pin PDIP

010-1

C to +100

DCP011512DP

Rails

DCP011512D

14-Pin PDIP Gull Wing

010-2

C to +100

DCP011512DP-U

Rails

DCP011512DP-U/700

Tape and Reel

DCP011515D

14-Pin PDIP

010-1

C to +100

DCP011515DP

Rails

DCP011515D

14-Pin PDIP Gull Wing

010-2

C to +100

DCP011515DP-U

Rails

DCP011515DP-U/700

Tape and Reel

NOTES: (1) For detailed drawing and dimension table, please see end of data sheet, or Appendix C of Burr-Brown IC Data Book. (2) Models with a slash (/) are
available only in Tape and Reel in the quantities indicated (e.g., /700 indicates 700 devices per reel). Ordering 700 pieces of DCP011512DP-U/700 will get a single
700-piece Tape and Reel. For detailed Tape and Reel mechanical information, refer to Appendix B of Burr-Brown IC Data Book.

PACKAGE/ORDERING INFORMATION

DCP0115

TYPICAL PERFORMANCE CURVES

At T

= +25

C, unless otherwise noted.

Load (%)

Peak-to-Peak Ripple Voltage (mV)

PEAK-TO-PEAK RIPPLE VOLTAGE vs LOAD

100

200

180

160

140

120

100

= 1µF

= 10µF

= 100nF

100

Load (%)

rms Ripple Current (mA)

REFLECTED r ms RIPPLE CURRENT vs LOAD

= 1µF

= 100µF

Load (%)

Efficiency (%)

DCP011512D

EFFICIENCY vs LOAD

100

Load (%)

Efficiency (%)

DCP011515D

EFFICIENCY vs LOAD

100

Load (%)

Output Voltage (V)

DCP011512D

OUTPUT VOLTAGE vs LOAD

14.0

13.5

13.0

12.5

12.0

11.5

11.0

OUT

Load (%)

Output Voltage (V)

DCP011515D

OUTPUT VOLTAGE vs LOAD

100

18.0

17.5

17.0

16.5

16.0

15.5

15.0

14.5

14.0

OUT

DCP0115

TYPICAL PERFORMANCE CURVES

(CONT)

At T

= +25

C, unless otherwise noted.

Temperature (°C)

Frequency (%)

SWITCHING FREQUENCY vs TEMPERATURE

100

120

101

100

13.5

Input Voltage (V)

Output Voltage (V)

DCP011512D

OUTPUT VOLTAGE vs INPUT VOLTAGE (75% Load)

16.0

16.5

14.0

14.5

15.5

14.0

13.5

13.0

12.5

12.0

11.5

11.0

10.5

10.0

OUT

13.5

Input Voltage (V)

Output Voltage (V)

DCP011515D

OUTPUT VOLTAGE vs INPUT VOLTAGE (75% Load)

16.0

16.5

14.0

14.5

15.5

17.5

17.0

16.5

16.0

15.5

15.0

14.5

14.0

13.5

13.0

OUT

100

Temperature (°C)

Output Power (W)

OUTPUT POWER vs TEMPERATURE

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

100

OUT

Load (% of Full Load)

OUT

(V)

DCP011512D

LOAD BALANCE (+V

OUT

LOAD = 100%)

OUT

150

100

OUT

Load (% of Full Load)

OUT

(V)

DCP011512D

LOAD BALANCE (+V

OUT

LOAD = 10%)

OUT

DCP0115

FUNCTIONAL DESCRIPTION

OVERVIEW

The DCP0115 offers up to 1W of unregulated output power
from a 15V input source with a typical efficiency of 76%.
This is achieved through highly integrated packaging tech-
nology and the implementation of a custom power stage and
control IC.

POWER STAGE

This uses a pull-pull, center-tapped topology switching at
400kHz (divide by 2 from 800kHz oscillator).

OSCILLATOR AND WATCHDOG

The on-board 800kHz oscillator provides the switching
frequency via a divide by 2 circuit and allows synchroniza-
tion via the SYNC

pins. To synchronize any number of

DCP0115 family of devices, simply tie the SYNC

pins

together (see the Synchronization section). The watchdog
circuitry protects the DC/DC against a stopped oscillator and
checks the oscillator frequency which will shut down the
output stage if it drops below a certain threshold--i.e., it will
be tri-stated after approximately 10

FIGURE 1. Standard Interface.

THERMAL SHUTDOWN

The DCP0115 is also protected by thermal shutdown. If the
on-chip temperature reaches a predetermined value, the DC/
DC will shutdown. This effectively gives indefinite short
circuit protection for the DC/DC.

SYNCHRONIZATION

Any number of DCP01 family devices can be synchro-
nized by connecting the SYNC

pins on the devices

together (see Figure 1). All the DCP01 devices will then
self-synchronize.

This same synchronization method applies to any V

ver-

sion of the DCP01 family, allowing synchronization of
various V

OUT

and V

DC/DCs.

The SYNC

OUT

pin gives an unrectified 400kHz signal from

the transformer. This can be used to set the timing of external
circuitry on the output side. In noise sensitive applications
any pick-up from the SYNC

OUT

pin can be minimized by

putting a guard ring round the pin (see Figure 2).

Bottom View

FIGURE 2. SYNC

OUT

Guard Ring.

DIVIDE BY 2 RESET

Isolated DC/DC converter performance normally suffers
after power reset. This is because a change in the steady state
transformer flux creates an offset after power-up. The DCP01
family does not suffer from this problem. This is achieved
through a patented

(1)

technique employed on the divide by 2

reset circuitry resulting in no change in output phase after
power interruption.

CONSTRUCTION

The DCP0115's basic construction is the same as standard
ICs. There is no substrate within the molded package. The
DCP0115 is constructed using an IC, rectifier diodes, and a
wound magnetic toroid on a leadframe. As there is no solder
within the package, the DCP0115 does not require any
special PCB assembly processing. This results in an isolated
DC/DC with inherently high reliability.

ADDITIONAL FUNCTIONS

DISABLE/ENABLE

The DCP0115 can be disabled or enabled by driving the
SYNC

pin with an open drain CMOS gate. If the SYNC

pin is pulled low, the DCP0115 will disable. The disable time
depends on the output loading but the internal shutdown takes

DCP0115xxx

OUT

470nF

DCP0105xxx

Out+

470nF

DCP0105xxx

Out+

SYNC

470nF

+5V

+15V

1 per DCP01

470nF

+15V

+Out 1

Out 1

+5V

+Out 2

+Out 3

DCP0115

up to 10

s. Making the gate open drain will re-enable the

DCP0115. However, there is a trade-off in using this function;
the DCP0115 quiescent current may increase and the on-chip
oscillator may run slower. This degradation in performance is
dependent on the external CMOS gate capacitance, therefore
the smaller the capacitance, the lower the performance de-
crease. Driving the SYNC

pin with a CPU type tri-state

output, which has a low output capacitance, offers the lowest
reduction in performance.

DECOUPLING

Ripple Reduction

The high switching frequency of 400kHz allows simple
filtering. To reduce ripple, it is recommended that 0.47

capacitors are used on V

and V

OUT

(see Figure 3). Dual

outputs should both be decoupled to pin 5. In applications
where power is supplied over long lines and output loading
is high, or, there is significant inductance at the output, it
may be necessary to use a 2.2

F capacitor on the input to

insure startup.

There is no restriction on the size of the output capacitor used
to reduce ripple. The DCP0115 will start into any capacitive
load. Low ESR capacitors will give the best reduction.

EXTERNAL SYNCHRONIZATION

The DCP0115 can be synchronized externally if required
using a simple external interface. Figure 4 shows a universal
interface using a 4066 quad switch. The CTL and SYNC

pins are used to select external synchronization or self-
synchronization.

This interface can also be used to stop (disable) the DCP0115.

FIGURE 4. Universal Interface.

CTL

SYNC

FUNCTION

External Sync

Self-Sync

Device Stop

FIGURE 3. DCP011515 Fully Loaded.

DCP0115xxx

OUT

SYNC

I/O

CONT

470nF

(One Per

DC/DC)

DCP0105xxx

OUT

SYNC

33k

DCP0105xxx

OUT

SYNC

470nF

+5V

+Out 2

+Out 3

I/O

CONT

I/O

CONT

I/O

CONT

SYNC ON

FREQ IN

CTL

33k

470nF

+15V

4066

470nF

+15V

+Out 1

Out 1

+5V

Out

0.47µF

+15V

0.47µF

820

0.47µF

820

DCP0115

DCP0115

1. To predict the output voltage at 100% load take the measured

or specified voltage at 75% load and multiply by
(1 + Load Reg 75% to 100%). For example a DCP011512DP
typical +V

OUT

at 100% load will be 12V

(1 7%) = 11.2V.

2. To predict the output voltage at 25% load take the measured

or specified voltage at 75% load and multiply by
(1 + Load Reg 25% to 75%). For example a DCP011512DP
typical +V

OUT

at 25% load will be 12V

(1 + 5%) = 12.6V.

To then estimate the voltage at 10% load take the previously
calculated +V

OUT

at 25% load and multiply by (1 + Load Reg

10% to 25%). In this case the typical +V

OUT

at 10% load will

be 12.6V

(1 + 10%) = 13.9V.

To obtain predictions for loads other than those specified
assume the V

OUT

versus load characteristic is linear between

the load points and calculate accordingly. The 10% to 100%
load specification guarantees the maximum voltage excursion
for any load between 10% to 100% with respect to V

OUT

75% load.

The above does not take into consideration line regulation and
assumes a nominal input voltage. The 1:1 line regulation of the
DCP01 family means that a percentage change in the input
will give a corresponding percentage change in the output.

Connecting the DCP0115 in Series

Multiple DCP01 isolated 1W DC/DC converters can be
connected in series to provide non-standard voltage rails.
This is possible by utilizing the floating outputs provided by
the DCP01's galvanic isolation. For example, the output on
dual output DCP01 versions can be connected in series to
provide 2 times the magnitude of V

OUT

(see Figure 5). In this

example, a dual 12V DCP011512D is connected to provide
a 24V rail.

Connecting the DCP0115 in Parallel

If the output power from one DCP0115 is not sufficient, it
is possible to parallel the outputs of multiple DCP0115s (see
Figure 6). Again, the SYNC feature allows easy synchroni-
zation to prevent power-rail beat frequencies at no additional
filtering cost.

PREDICTING OUTPUT VOLTAGE VERSUS LOAD

The Load Regulation specifications are calculated as fol-
lows:

FIGURE 5. Connecting the DCP0115 in Series.

DCP

OUT

SUPPLY

OUT

COM

24V

CONDITION

CALCULATION

10% to 100% Load

OUT

at 10% load V

OUT

at 100% load)/ V

OUT

at 75% load

10% to 25% Load

OUT

at 10% load V

OUT

at 25% load)/ V

OUT

at 25% load

10% to 75% Load

OUT

at 10% load V

OUT

at 75% load)/ V

OUT

at 75% load

75% to 100% Load

OUT

at 75% load V

OUT

at 100% load)/ V

OUT

at 75% load

FIGURE 6. Connecting Multiple DCP0115s in Parallel.

DCP

OUT

SUPPLY

OUT

DCP

OUT

SYNC

COM

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