KNI 582

 

SPECIFICATION

 

 

CHARACTERISTIC

 

 

 

 

 

 

 

 

 

 

 

B. Receiver

 

1.

Input resistance = 1K ± 5% returned to +V

 

 

 

2.

+V = 9.0V ± 15%

 

 

C. Interconnecting Lines

1. Maximum Shunt Capacity = 2000 pF

II

Waveform Timing

 

 

 

 

 

A. Data

 

1. Data Rate - Approx. 1KHz

 

 

 

2.

Negative Logic (“Low True”)

 

B. Clock

 

1.

The negative going edge of the clock

 

 

 

 

waveform will be greater than 10us and less

 

 

 

 

than 250us from any data transistors point.

 

 

 

2.

The minimum time that the clock spends in

 

 

 

 

either the high or low state will be greater

 

 

 

 

than 10us.

 

 

C. Sync

 

1.

The sync pulse is a negative going pulse

 

 

 

 

following the data word.

 

 

 

 

2.

The negative going edge of the sync pulse

 

 

 

 

will be a minimum of 70us and a maximum of

 

 

 

 

350us after the negative going edge of the

 

 

 

 

last clock pulse.

 

 

 

 

3.

The sync pulse will be a minimum of 10us

 

 

 

 

wide and a maximum of 260us wide.

III

Data Word Format

 

1.

BCD, 0.1’s, 1’s, 10’s, 100’s

 

 

 

2.

LSD to MSD

 

 

 

 

3.

LSB to MSB

 

 

 

 

4.

Maximum Word Rate = 12Hz

 

 

 

5.

When “8” Bit of 100’s is High (False) = Flag.

 

 

 

6.

When “4” Bit of 100’s is High (False) = ILS

 

 

 

 

Mode.

 

 

 

 

 

 

 

 

100°

10°

 

.1°

(8)(4)

Flag ILS 2 & 1

MSB LSB

MSB LSB

MSB LSB

ABC

<---- Time

Table 1-1 - KNI 582 RMI Technical Characteristics (Cont)

Rev 3, March/2007

©Honeywell International Inc. Do not print without express permission of Honeywell.

1-3

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Honeywell KNI 582 installation manual Specification Characteristic, Iii, Msb Lsb Abc

KNI 582 specifications

The Honeywell KNI 582 is a state-of-the-art gas detector designed for industrial and commercial applications. This device is engineered to ensure the safety of environments where hazardous gases may be present. It is recognized for its robust construction and advanced features that provide reliable detection, making it an essential tool for maintaining safe operating conditions.

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