AN-535_技术文档

AN-535

a

APPLICATION NOTE

One Technology Way• P.O. Box9106 • Norwood, MA 02062-9106 • 781/329-4700 •World Wide Web Site: http://www.analog.com

Digital Input/Output Subsystems

INTRODUCTION

DB-16 Digital I/O Subsystem

The DB-16 and DB-24 are 16- and 24-channel digital I/O

subsystems providing a reliable, solid state, optically

isolated interface between data acquisition boards, such

as the Analog Devices’ RTI-800 series, or distributed I/O

signal conditioning subsystems such as the Analog

Devices’ Model 6B50, and discrete high level I/O.

Use the DB-16 Digital I/O Backplane, shown in Figure 1,

and its associated ac and dc single-channel I/O modules

to measure and/or control high level ac and dc signals or

if isolation of the digital I/O is required.

Single-Channel Solid State Relays

The DB-16 supports the installation of up to 16 single-

channel, solid-state relay modules, which provide

2500 V peak of optical isolation. You should install the

modules in their appropriate positions in the backplane

and secure them with one screw each.

The DB-16 is a manifold card that accepts up to 16

single-channel digital input and output modules. These

solid state relay modules can be mixed and matched to

provide an interface to ac inputs, ac outputs, dc inputs

and dc outputs. Each I/O module is individually con-

trolled or sensed by the digital I/O of the data acquisition

board or the 6B50 subsystem.

All output modules can switch up to three amps. AC out-

put modules provide zero voltage turn-on and have an

RC (resistor-capacitor) snubber network for increased

capability with inductive loads. AC and dc input mod-

ules are designed with filtering on the input and hyster-

esis for high noise rejection and transient-free “clean”

switching. They are designed so that high voltage tran-

sients on the input do not cause damage to the module.

The DB-24 is a manifold card that can accept up to six

4-channel (quad) digital input and output modules.

These modules can be mixed and matched as well. Each

module handles four channels of identical levels, and

the state of each input or output can be observed via the

four LEDs on each module.

Each module operates by negative true logic, in which a

low digital voltage turns on current to the module. Indi-

vidual LED status indicators monitor module activity

and light when the current is ACTIVE.

The DB-16 and DB-24 share the same pinout and 50-pin

card edge connector and can be used interchangeably.

However, only the 16 channels are addressable on the

DB-16. An external +5 V dc power supply at 300 mA

maximum is required for operation.

Each I/O module position on the DB-16 backplane has

a 5 amp, 250 V rms pico-fuse (Littelfuse^®Part Number

251 005) protecting the module and wiring from short

circuits.

All trademarks are the property of their respective holders.

BARRIER STRIP FOR

LOGIC SUPPLY INPUT

POWER BARRIER

STRIP

49

POWER LINE

FUSE, 5 AMP

SIGNAL CARD EDGE

CONNECTOR

KEY

SLOT

0

1

2

3

4

5

6

8

9

10

11

12

13 14

7

15

1

PULL-UP RESISTOR

3.3k⍀

Figure 1. DB-16 Digital I/O Backplane

AN-535

Table I lists the input and output modules available for

use with the DB-16 backplane.

Attaching Digital I/O Applications to the DB-16

Backplane

The DB-16 backplane is powered through an external

+5 V dc power supply. Applications to the DB-16 back-

plane are connected through the screw terminal barrier

strip, which contains 32 standard slot-head screw termi-

nals (screw terminals 1 and 2 are associated with chan-

nel 0 on the backplane; screw terminals 3 and 4 are

associated with channel 1 on the backplane, and so on).

Use the odd-numbered screw terminal for the high in-

put; use the even-numbered screw terminal for the low

input.

Table I. Single-Channel Input/Output Module Summary

Output

Current

Input

Current

Type

Model

Range

Input

ID016

ID032

IA140A

4 V–16 V dc

68 mA

34 mA

5 mA

10 V–32 V dc

90 V–140 V ac

90 V–140 V dc

180 V–280 V dc

180 V–280 V ac

IA280A

5 mA

Figure 2 illustrates high level ac and dc digital wiring us-

ing input and output modules on the DB-16 backplane.

Example 2a illustrates turning a lamp on or off; example

2b illustrates monitoring whether the lamp is on or off;

example 2c illustrates turning a relay coil on and off; and

example 2d illustrates monitoring whether or not a relay

coil is energized.

Output OD060

5 V–60 V dc

3.0 A rms

3.5 A rms

OA140A 12 V–140 V ac

OA280A 24 V–280 V ac

115V AC

CURRENT

LIMIT

RESISTOR

SCREW

#31

SCREW

#29

1

LED

4

OUTPUT MODULE

INPUT MODULE

15

14

#32

#30

PULL-UP

RESISTOR

SOCKETED

PICO FUSE (5A)

b. AC Input

a. AC Output

+24V DC

115V DC

SCREW

#25

SCREW

#27

2

RELAY

COIL

3

LED

4

INPUT MODULE

OUTPUT MODULE

13

12

#26

#28

c. DC Output

d. DC Input

NOTES:

1

SHOULD NOT EXCEED 3A.

2

3

4

USER SUPPLIED DIODE NECESSARY FOR INDUCTIVE SPIKE DAMPING.

RELAY COIL AMPERAGE SHOULD NOT EXCEED OUTPUT MODULE RATING.

MODULES ARE COLOR CODED: AC INPUT – YELLOW

AC OUTPUT – BLACK

DC INPUT

DC OUTPUT – RED

– WHITE

Figure 2. Typical High-Level Digital I/O Wiring Examples Using the DB-16 Backplane

–2–

AN-535

1

2

C

3

4

5

6

C

7

8

9

10

C

11 13

12 14

C

15 17

16 18

C

19 21

20 22

C

23

24

BARRIER

STRIP

FUSE

5A

1

2

3

4

1

2

3

4

1

3

4

1

3

4

1

3

4

1

2

3

2

4

FUSE

1A

0–3

4–7

8–11

12–15

16–19

20–23

KEY

SLOT

J1

49

1

25 23

TO DIGITAL I/O

CONNECTOR

+5V AND

GND

Figure 3. DB-24 Digital I/O Backplane

DB-24 Digital I/O Subsystem

provided to apply colored stick-on dots (supplied) to

match the color coding of the modules (yellow = ac in-

put, black = ac output, white = dc input, and red = dc

output). Note that the four channels corresponding to

one quad module must be configured with either all in-

put channels or all output channels.

Use the DB-24 Digital I/O manifold card, shown in Figure

3, and its associated dc and ac 4-channel I/O modules to

measure and/or control high level ac and dc signals or if

isolation of the digital I/O is required.

4-Channel Solid State Relays

The DB-24 is a 24-channel I/O backplane that supports

the installation of up to six 4-channel, high-density mod-

ules to perform ac input, dc input, dc output, and dc out-

put functions. You install each module into a socketed

position on the DB-24 backplane, where each module

is held in place with two screws, provided with the

module.

Each module on the DB-24 Digital I/O Backplane oper-

ates by negative true logic, in which a low digital voltage

turns on current to the module. Four LEDs on each mod-

ule indicate the status of the I/O channels (the LED lights

when current is turned on).

Each I/O module position has two 5 amp, 250 V rms pico-

fuses protecting the module and wiring from short cir-

cuits. Table II lists the input and output 4-channel

modules available for use with the DB-24 backplane.

All output modules are able to switch up to 3 amps. AC

output modules provide zero voltage turn-on and have

an RC snubber network for increased capability with in-

ductive loads. AC and dc input modules are designed

with filtering on the input and hysteresis for high noise

rejection and transient free “clean” switching. They are

designed so that high voltage transients on the input

will not cause damage to the module. Optical isolation

for the ac and dc input and output module is rated at

4000 V rms input-to-output.

Table II. Quad Input/Output Module Summary

Output

Current

Input

Current

Type

Model

Range

Input

ID16FQ

ID32Q

IA120QA

4 V–32 V dc

68 mA

34 mA

10 V–60 V dc

90 V–140 V ac

90 V–140 V dc

180 V–280 V dc

180 V–280 V ac

5 mA

IA240QA

Each module is color-coded by function and the model

number is clearly marked on the module itself. The

channel numbers associated with the module are

printed below the module on the panel and spaces are

Output OA240QA 24 V–280 V ac

OD60Q 3 V–60 V ac

3.5 A rms

–3–

AN-535

Powering the DB-24 Backplane

To configure the DB-24 backplane for external power,

ensure that the socketed 1 amp fuse is installed to the

left of the +5 V dc and GND screw terminals. Refer to

Figure 4.

You can power the DB-24 Digital I/O Backplane internally

for some boards, or you can use an external +5 V power

supply. Before you attach the DB-24 backplane to the

board, you must configure it for internal or external

power.

Attaching the DB-24 Digital I/O Backplane

To attach the DB-24 backplane to a data acquisition or

6B50 board, use a 50-pin cable, such as the AC1585-9

cable or the CAB-03 cable (available from Analog

Devices). Attach one end of the cable to the digital I/O

connector on the board and attach the other end of the

cable to the digital I/O connector (J1) on the DB-24 back-

plane. Make sure that Pin 1 on the cable corresponds to

Pin 1 on the connector. Refer to Figure 5.

To configure the DB-24 for internal power, remove the

socketed 1 amp fuse from the left of the +5 V dc and

GND screw terminals. Install this fuse in the socketed

position to the right of the +5 V dc and GND screw termi-

nals on the DB-24 backplane.

1

2

3

4

1

2

3

4

1

2

3

4

1

2

3

4

1

2

3

4

1

2

3

4

0–3

4–7

8–11

12–15

16–19

20–23

INSTALL 1A FUSE

FOR EXTERNAL POWER

KEY

SLOT

J1

49

1

25 23

+5V

EXTERNAL

POWER

INSTALL 1A FUSE

FOR INTERNAL POWER

SUPPLY

Figure 4. Positioning Fuse for Internal or External Power on the DB-24 Backplane

1

2

3

4

1

2

3

4

1

2

3

4

1

2

3

4

1

2

3

4

11 33

22 44

DB-24

BACKPLANE

PIN 1

CAB-03 OR

AC1585-9

CABLE

BOARD

J1 CONNECTOR

Figure 5. Attaching the DB-24 Digital I/O Backplane

–4–

AN-535

I/O

CHANNEL

Attaching Digital I/O Applications to the DB-24 I/O

Backplane

1

2

C

3

4

COMMON

Use the DB-24 Digital I/O Backplane for high level ac or

dc signals. Connect applications to the backplane

through the barrier strip. The barrier strip contains stan-

dard slot-head screw terminals, six screws for each

4-channel (quad) I/O module. Use 22-14 AWG twisted-

pair wire, and strip the wire back approximately

0.25-inch (6.3 mm). Four consecutive input or output ap-

plications are attached to a single quad module, with

two channels sharing the same common in the module.

1

C

3

2

C

4

1

2

3

8

9

10

1

2

3

4

The two common connections for each module are con-

nected to one another on the DB-24 backplane. There-

fore, each of the four individual channels on the module

can use either of its two common connections. Since the

commons are connected, you must make sure that all of

the applications attached to a 4-channel module share

the same common voltage reference. If two applications

use different common voltage references, the applica-

tions must be attached to two different modules. Figure

6 illustrates how the channels and their commons are

connected.

0–3

Figure 6. DB-24 Backplane Common Connections

Figure 7 illustrates high level ac and dc digital wiring us-

ing input and output modules on the DB-24 backplane.

Example 7a illustrates turning a lamp on and off, and

example 7b illustrates monitoring whether the lamp is

on or off. Example 7c illustrates turning a relay coil on

and off, and example 7d illustrates monitoring whether

or not the relay coil is being energized.

NOTE:

The channels on the screw terminals on the DB-24 back-

plane are labeled from 1–24, while the channels for the

I/O modules are labeled 0–23. Keep this distinction in

mind when installing your field wiring applications.

RELAY

COIL

115V DC

115V AC

3

+24V DC

CURRENT

LIMIT

RESISTOR

115V AC

I

L

2

1

2

C

3

4

1

2

C

3

4

1

2

C

3

4

1

2

C

3

4

1

2

3

4

1

2

3

4

1

2

3

4

1

2

3

4

0–3

a. AC Output

b. AC Input

c. DC Output

d. DC Input

NOTES:

1

SHOULD NOT EXCEED 3A.

USER SUPPLIED DIODE NECESSARY FOR INDUCTIVE SPIKE DAMPING.

RELAY COIL AMPERAGE SHOULD NOT EXCEED OUTPUT MODULE RATING.

MODULES ARE COLOR CODED: AC INPUT – YELLOW

AC OUTPUT – BLACK

2

3

4

DC INPUT

DC OUTPUT– RED

– WHITE

Figure 7. Typical High Level Digital I/O Wiring Using the DB-24 and 4-Channel Solid State Relay Modules

–5–

AN-535

POWER INPUT/OUTPUT

LOGIC SUPPLY

BARRIER STRIP

1

2

3

4

5

6

7

8

9

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

–

+

5 AMP

FUSE (24)

EDGE CONN

BOTTOM

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

1

2

3

4

5

ALL

LOGIC GND EVEN

PINS

TOP

+LOGIC

1

17

19

21

23

25

27

29

31

33

35

37

39

41

43

45

47

49

SIGNAL

INPUT/OUTPUT

PULL-UP

RESISTOR

3.3k⍀

(24)

+LOGIC

LED

INDICATOR

(24)

Figure 8. Schematic Diagram Model DB-16

LOWER POWER

BARRIER STRIP

1

C

3

C

9

C

11

13

C

15

17

C

19

21

C

23

5

7

UPPER POWER

BARRIER STRIP

2

4

6

C

8

10

12 14

16 18

20 22

24

5 AMP

FUSES (12)

1

2

3

8

9

1

2

3

8

9

1

2

3

8

9

1

2

3

8

9

1

2

3

8

9

1

2

3

8

9

10

1 AMP

FUSE

4

5

6

7

11

12

13

14

4

5

6

7

11

12

13

14

4

5

6

7

11

12

13

14

4

5

6

7

11

12

13

14

4

5

6

7

11

12

13

14

4

5

6

7

11

12

13

14

+

–

49 47 45 43 41

39 37 35 33

31 29 27 25

23 21 19 17

15 13 11

9

7

5

3

1

PINS 2-50

TIED TO COM

SIGNAL INPUT/OUTPUT EDGE CONNECTOR

Figure 9. Schematic Diagram Model DB-24

–6–

AN-535

SINGLE-CHANNEL SOLID STATE RELAYS

MOUNTING

BACKPLANE

MOUNTING

BACKPLANE

PLUG-IN MODULE

AC INPUT

PLUG-IN MODULE

AC OUTPUT

AC HI

OUTPUT

LOAD

INPUT

SCREW

TERMINALS

SCREW

TERMINALS

ZERO

VOLTAGE

CIRCUIT

FUSE

AC LO

INPUT

AC LO

OUTPUT

12k⍀

LED

220⍀

+

+V

CC

3.3k⍀

220⍀

3.3k⍀

DOUT

EDGE

CONNECTOR

DIN

EDGE

CONNECTOR

DIG GND

a. AC Input Module

b. AC Output Module

COMMUTATING

DIODE

MOUNTING

BACKPLANE

MOUNTING

BACKPLANE

PLUG-IN MODULE

DC INPUT

PLUG-IN MODULE

DC OUTPUT

+

DC HI

INPUT

DC HI

OUTPUT

LOAD

SCREW

TERMINALS

SCREW

TERMINALS

1k⍀

FUSE

DC LO

INPUT

DC LO

OUTPUT

AMPLIFIER

LED

R

C

+

+V

CC

3.3k⍀

R

C

3.3k⍀

DOUT

I

OUT

EDGE

CONNECTOR

DIN

EDGE

CONNECTOR

DIG GND

c. DC Input Module

b. DC Output Module

Figure 10.

OUTLINE DIMENSIONS

Dimensions shown in inches and (mm).

1.7 (43.2)

1.0 (25.4)

4-40 HOLD

DOWN SCREW

1.25

(31.8)

0.25 (6.4)

5 4

3

2

1

0.6

(15.2)

0.1 (2.54) GRID

–7–

AN-535

OUT

4

OUT

3

IN

3

IN

4

SCHEMATIC DRAWINGS

+VCC

COMMON

SNUB

LOGIC OUT

GND

OUT

4

IN

4

IN

3

+VCC

COMMON

3

SNUB

OUT

1

IN

1

IN

2

+VCC

OUT

2

COMMON

Figure 12. AC Output Module, OA240QA

R1

IN

3

IN

4

OUT

4 (–)

OUT

3 (–)

+VCC

COMMON (+)

LOGIC OUT

GND

OUT +VCC

4

IN

4

COMMON

IN

3

Figure 11. Input Modules, ID16FQ, ID32Q, IA120QA,

IA24QA

IN

1

IN

2

+VCC

OUT COMMON (+) OUT

2 (–) 1 (–)

Figure 13. DC Output Module, OD60Q

OUTLINE DIMENSIONS

Dimensions shown in inches and (mm).

Tolerance: ±0.020 (±0.50)

0.45

(11.43)

0.125R

0.2

(5.1)

1.9 (47.5)

13 12 11 10

0.2

(5.1)

9

2

8

1

2.9

(73.2)

0.5

(12.7)

6

5

4

3

0.3 (7.6)

0.2 (5.1)

0.4 (10.2)

0.9 (22.9)

1.1 (27.9)

1.3 (33.0)

0.042 (1.1) DIA. PINS

2.1 (53.3)

4–40

؋

0.75 (19.1) PAN HEAD SCREW

CASE COLORS:

INPUT MODULES:

AC: YELLOW

DC: WHITE

OUTPUT MODULES: AC: BLACK

DC: RED

–8–


型号：	AN-535
厂家：	ADI
描述：	Digital Input/Output Subsystems 数字输入/输出子系统
文件：	总8页 (文件大小：338K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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