KNI 582

2.The above step should be repeated for at least one additional heading 90° from the first.

B.ADF Accuracy

1.Depending on the application, the KNI 582 RMI can be tested for either DC SIN/COS ADF or X, Y, Z, ADF by tuning in a station on the appropriate ADF.

2.In the DC SIN/COS Mode the needles should position the direction of the station +5°. Repeat for at least one more station.

3.Repeat Step 2 for X, Y, Z, ADF +5°.

C.VOR Accuracy

1.Depending on the application, the KNI 582 RMI can be tested for either OBI DIGITAL VOR, COMPOSITE VOR, or OBI SIN/COS VOR by tuning in a station on the appropriate VOR.

2.In the OBI DIGITAL VOR Mode, the single needle should point to the station +5°. Repeat for at least one more station.

3.Repeat Step 2 for COMPOSITE VOR +5°.

4.Repeat Step 2 for OBI SIN/COS VOR +5°.

D.VOR/LOC Composite Correction Adjustment

If it is necessary to make a VOR/LOC composite needle centering adjustment due to NAV receiver composite error, the KNI 582 RMI pointer can be adjusted externally using the following steps:

1.With a ramp-test NAV generator, generate an output so the NAV receiver can be tuned into a given bearing.

2.With the NAV receiver tuned to the generator frequency, insert a tuning tool into VOR/LOC composite adjustment hole (refer to Figure 2-1) and adjust R232 until the selected needle reads the same bearing the ramp generator.

3.Repeat Step 2 for verification of the adjustment for another bearing on the ramp with generator.

Rev 3, March/2007

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

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Honeywell KNI 582 installation manual Kni

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.

One of the standout characteristics of the Honeywell KNI 582 is its capability to detect multiple gases simultaneously. Equipped with advanced sensors, the KNI 582 can monitor for gases like methane, propane, and carbon monoxide. This multi-gas detection feature enhances safety by providing real-time awareness of potential hazards.

The KNI 582 employs Honeywell's patented sensor technology, which boasts high sensitivity and rapid response times. This technology allows the device to detect gas leaks swiftly, minimizing the potential for dangerous situations. Additionally, its intelligent calibration system ensures accuracy over time, requiring less frequent manual calibration and reducing maintenance burdens.

The design of the Honeywell KNI 582 integrates a user-friendly interface, featuring an easy-to-read display that shows gas concentrations and operational status. Alarm notifications, both visual and audible, alert users to unsafe conditions, allowing for immediate action. This feature is crucial in environments where minutes can make a difference in emergency situations.

Durability is another key aspect of the KNI 582. Constructed with high-quality materials, it is designed to withstand harsh industrial conditions, including exposure to dust, moisture, and temperature variations. Its robust housing ensures longevity and reliable performance in challenging environments, making it a cost-effective investment over time.

In terms of connectivity, the KNI 582 can interface with various monitoring systems and safety devices. This compatibility allows for integration into broader safety protocols, enhancing situational awareness and operational safety. The ability to connect to external systems for remote monitoring and data logging adds further value, enabling organizations to track gas levels over time and respond proactively to potential threats.

Overall, the Honeywell KNI 582 stands out in the field of gas detection with its advanced technologies, reliability, and user-centric design. Its multi-gas detection capabilities, rapid response time, and integration options make it an indispensable component of modern safety management systems, ensuring personnel and facility safety in potentially hazardous environments.