Annunciator Basic Setup and Configuration Overview: Difference between revisions

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(Created page with "=== OVERVIEW === There are a large number of annunciator setup screens, all accessed through the Annunciator Setup Pages (Pg. 620) screen and its subpages, reached by selecting the “Annunciator Setup” button on the Annunciator Home screen. Subsequent sections of this part of the manual will describe the setup of individual parts of the system. The bulk of the setup items are under the subpage “Inputs Setup” or “Outputs Setup”. === BASIC INPUT SETUPS === The...")
 
 
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=== OVERVIEW ===
There are a large number of Brain setup screens, all accessed through Settings -> Brain and its subpages.
There are a large number of annunciator setup screens, all accessed through the Annunciator Setup Pages (Pg. 620) screen and its subpages, reached by selecting the “Annunciator Setup” button on the Annunciator Home screen.


Subsequent sections of this part of the manual will describe the setup of individual parts of the system. The bulk of the setup items are under the subpage “Inputs Setup” or “Outputs Setup”.
== Basic Input Setups ==
 
The basic four types of inputs (Analog, Digital, Thermocouple, and Magnetic Pickup) are setup through “Brain Setup” then “Inputs Setup”. For the first three types mentioned, selecting the input category will show a list of available inputs, and one can be selected to configure. Details on the setup items of each is listed below.
=== BASIC INPUT SETUPS ===
The basic four types of inputs (Analog, Digital, Thermocouple, and Magnetic Pickup) are setup through “Annunciator Setup” then “Inputs Setup”, or during the setup wizard. Details on the setup items of each is listed below.


=== Digital Inputs ===
=== Digital Inputs ===
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* Name: Choose or type in a name for the input
* Name: Choose or type in a name for the input
* Type: Choose normally open or normally closed, based on the sensor type
* Type: Choose normally open or normally closed, based on the sensor type
* <blockquote>Newer annunciator versions also allow a detect loop option</blockquote>
**Newer Brain versions also allow a detect loop option, see [[Digital Inputs Detect Loop]]
* Alarm action and class: Choose as needed based on the descriptions in the overview section
* Alarm action and class: Choose as needed based on the descriptions in the overview section


=== Analog Inputs ===
=== Analog Inputs ===
[[File:AI Sensor Setup1.jpg|600px]]
[[File:AI Sensor Setup2.jpg|600px]]


* Name: Choose or type in a name for the input
* Name: Choose or type in a name for the input
* Type: Choose 0-5V, 1-5V, or 4-20mA based on the sensor type
* Type: Choose 0-5V, 1-5V, 4-20mA, diff based on the sensor type
** For "diff" type, see [[Annunciator Dual Sensor Differential Inputs]]
* Value at (low) and (high): Enter the full range of the sensor. This should be printed on the sensor itself or can be found in the sensor documentation.
* Value at (low) and (high): Enter the full range of the sensor. This should be printed on the sensor itself or can be found in the sensor documentation.
* Units: Enter the unit of the sensor for when displaying the value
* Units: Enter the unit of the sensor for when displaying the value
* <blockquote>Note: If an EMIT governor is on the system and pressure-based speed control is used, the suction/discharge sensors on the annunciator must use the units “PSI” or “KPA”.</blockquote>
**Note: If an EMIT governor is on the system and pressure-based speed control is used, the suction/discharge sensors on the Brain must use the units “PSI” or “KPA”.
* Alarm low and high: Enter the low and high alarm for the sensor. If either the low or high is not needed, it can be put at the limit or out of range of the sensor to keep it from ever faulting.
* Alarm low and high: Enter the low and high alarm for the sensor. If either the low or high is not needed, it can be put at the limit or out of range of the sensor to keep it from faulting.
* Alarm action and class: Choose as needed based on the descriptions in the overview section
* Alarm action and class: Choose as needed based on the descriptions in the overview section
* Optional secondary warning: If an extra warning is desired, it can be added here.
* Optional secondary warning: If an extra warning is desired, it can be added here.
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* Name: Choose or type in a name for the input
* Name: Choose or type in a name for the input
* Type: Choose Type K or Type J based on the thermocouple type
* Type: Choose Type K or Type J based on the thermocouple type
* Display range: Choose the low and high display range for the input. This only limits how the gauges and graphs will be drawn, and does not have any effect on actual system operation. For example, one might want to have jacket water temperature use a range of 100-200 degrees, but postcat temp have a range of 300 to 1300 degrees.
* Alarm low/ high: Choose the low and high alarms if required. An unneeded limit can be set to zero to be disabled.
* Alarm low/ high: Choose the low and high alarms if required. An unneeded limit can be set to zero to be disabled.
* Alarm action and class: Choose as needed based on the descriptions in the overview section
* Alarm action and class: Choose as needed based on the descriptions in the overview section
* Optional secondary warning: If an extra warning is desired, it can be added here.
* Optional secondary warning: If an extra warning is desired, it can be added here.


<nowiki>*</nowiki>Insert Image*
[[File:Thermocouple Input Setup.jpg]]
 
''Input Setup Example- Thermocouple''
''Input Setup Example- Thermocouple''


=== Magnetic Pickup ===
=== Magnetic Pickup ===


* Number of flywheel teeth: Enter the number of teeth expected on the MPU.
*Type: Choose MPU for a normal MPU input, or Analog for using an analog input as a speed reference (e.g. from a VFD)
* Number of flywheel teeth: Enter the number of teeth expected on the MPU. This can be "0" if a physical MPU is not used and the RPM value is coming from the engine data translator.
* Low/high alarm values: Enter limits as required. The low limit can be set to ”0” if not needed.
* Low/high alarm values: Enter limits as required. The low limit can be set to ”0” if not needed.

Latest revision as of 22:32, 5 August 2022

There are a large number of Brain setup screens, all accessed through Settings -> Brain and its subpages.

Basic Input Setups

The basic four types of inputs (Analog, Digital, Thermocouple, and Magnetic Pickup) are setup through “Brain Setup” then “Inputs Setup”. For the first three types mentioned, selecting the input category will show a list of available inputs, and one can be selected to configure. Details on the setup items of each is listed below.

Digital Inputs

  • Name: Choose or type in a name for the input
  • Type: Choose normally open or normally closed, based on the sensor type
  • Alarm action and class: Choose as needed based on the descriptions in the overview section

Analog Inputs

AI Sensor Setup1.jpg

AI Sensor Setup2.jpg

  • Name: Choose or type in a name for the input
  • Type: Choose 0-5V, 1-5V, 4-20mA, diff based on the sensor type
  • Value at (low) and (high): Enter the full range of the sensor. This should be printed on the sensor itself or can be found in the sensor documentation.
  • Units: Enter the unit of the sensor for when displaying the value
    • Note: If an EMIT governor is on the system and pressure-based speed control is used, the suction/discharge sensors on the Brain must use the units “PSI” or “KPA”.
  • Alarm low and high: Enter the low and high alarm for the sensor. If either the low or high is not needed, it can be put at the limit or out of range of the sensor to keep it from faulting.
  • Alarm action and class: Choose as needed based on the descriptions in the overview section
  • Optional secondary warning: If an extra warning is desired, it can be added here.

Thermocouples

  • Name: Choose or type in a name for the input
  • Type: Choose Type K or Type J based on the thermocouple type
  • Alarm low/ high: Choose the low and high alarms if required. An unneeded limit can be set to zero to be disabled.
  • Alarm action and class: Choose as needed based on the descriptions in the overview section
  • Optional secondary warning: If an extra warning is desired, it can be added here.

Thermocouple Input Setup.jpg

Input Setup Example- Thermocouple

Magnetic Pickup

  • Type: Choose MPU for a normal MPU input, or Analog for using an analog input as a speed reference (e.g. from a VFD)
  • Number of flywheel teeth: Enter the number of teeth expected on the MPU. This can be "0" if a physical MPU is not used and the RPM value is coming from the engine data translator.
  • Low/high alarm values: Enter limits as required. The low limit can be set to ”0” if not needed.