CPU001-BB Datasheet, PDF(1/5 Page) List of Unclassifed Manufacturers

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CPU001-BB Datasheet, PDF (1/5 Pages) List of Unclassifed Manufacturers – CPU001-BB

March 1999

CPU Module

GFK-1536C

Product Information _________________________________

Revision:

Firmware version:

Compatibility:

CPU001-BB

1.10

VersaPro software version 1.0

New Features ____________________________________

This version of CPU001 provides:

S Support for intelligent I/O modules.

S Scaling function blocks.

Two new function blocks can be used to scale input data.

One function block is for unipolar (unsigned) input data. The other

function block is for bipolar (signed) input data.

S Drum Sequencer function block.

This new function block works like a mechanical drum sequencer.

It allows a sequence of output combinations to be selected in turn.

See the heading âThe Drum Sequencer Functionâ for more

information.

Specifications

Size

I/O Discrete Points

I/O Analog Words

Registers

Discrete Internal Bits

Discrete Temporary Bits

Global Discrete Bits

Program Memory

Boolean execution speed

Floating Point

Override

Built-in ports

Built-in communications

Type of memory storage

Battery-Backed Real-time Clock

Realtime clock accuracy (used

for timers or timer contacts)

Time-of-day clock accuracy

2.63â (66.8mm) x 5.04â (128mm)

2048 In, 2048 Out

128 In, 128 Out

2048 words

1024 points

256 points

1280 points

12288 bytes

1.8ms/K (typical)

Yes

RS-232, RS-485

SNP Slave, RTU Slave, Serial I/O

System flash, battery-backed RAM

Yes

100ppm (0.01%) or +/- 9sec/day

23ppm (.0023%)or +/- 2sec/day @ 30C;

100 ppm ((0.01%) or +/- 9sec/day @ full

temperature range.

Preinstallation Check _____________________________

Carefully inspect all shipping containers for damage. If any equipment

is damaged, notify the delivery service immediately. Save the damaged

shipping container for inspection by the delivery service. After

unpacking the equipment, record all serial numbers. Save the shipping

containers and packing material in case it is necessary to transport or

ship any part of the system.

Module Installation _________________________________

133.35mm

(5.25in)

66.80mm

(2.63in)

Modules must be mounted on a

horizontal DIN rail.

1. Allow sufficient finger clearance

for opening CPU door.

2. Allow adequate clearance for

serial port cables.

3. Allow adequate space for power

wiring.

The CPU with power supply attached

fits into a 70mm deep enclosure.

Rated thermal specifications for the

CPU module is based on a clearance

of 2â above and below the equipment

and 1â to the left of the CPU module.

Installing the CPU on the DIN Rail

The CPU and connecting carriers must be

installed on the same section of 35mm x

7.5mm DIN rail. The rail must have a

conductive (unpainted) finish for proper

grounding. For best stability, the DIN rail

should be installed on a panel using

screws spaced approximately 6 inches

(5.24cm) apart.

The CPU snaps easily onto the DIN rail.

No tools are required for mounting or

grounding to the DIN rail.

Before joining module carriers to the CPU, remove the connector cover on

the righthand side of the CPU. Do not discard this cover, you will need to

install it on the last carrier, to protect the connector pins from contamination

and damage during use.

Panel-Mounting __________________________________

If excessive vibration is a factor the CPU should also be screwed down to

the mounting panel.

Note 1. Tolerances are +/- 0.13mm (0.005in) non-cumulative.

Note 2. 1.1-1.4Nm (10-12 in/lbs) of torque should be applied to M3.5 (#6-

32) steel screw threaded into material containing internal threads

and having a minimum thickness of 2.4mm (0.093in).

SEE NOTE 2.

4.3mm

0.170in

M3.5 (#6) SCREW

SPLIT LOCK

W ASHER

FLAT W ASHER

5.1mm

0.200in

4.3mm

0.170in

TAPPED

HOLE IN

PANEL

15.9mm

0.62in REF

CPU

Removing the CPU from the DIN Rail ___________________

1. Turn off power to the power supply.

2. (If the CPU is attached to the panel with a screw) remove the power

supply module. Remove the panel-mount screw.

3. Slide the CPU away from the other modules until the connector on the

right side disengages from the next carrier.

4. With a small flathead screwdriver, pull the DIN rail latch outward while

tilting the other end of the module down to disengage it from the DIN

rail.

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