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ESCORT TD-150 FUEL SENSOR: Difference between revisions

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== Product Specification ==
== Product Specification ==
 
[[File:Escort.png|right|280px]]
{| class="wikitable" style="width: 70%;"
{| class="wikitable" style="width: 50%;"
! style="background-color:#800020; white-space:nowrap; color:white;" | Parameter
! style="background-color:#800020; white-space:nowrap; color:white;" | Parameter
! style="background-color:#800020; white-space:nowrap; color:white;" | Value
! style="background-color:#800020; white-space:nowrap; color:white;" | Value
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|-
|-
| Weight (kg) || 0.35 + 0.4 × L (L = sensor length in meters)
| Weight (kg) || 0.35 + 0.4 × L (L = sensor length in meters)
|-
| Supported by || <div class="mw-collapsible mw-collapsed"> <div class="mw-collapsible-content"><p>
DISCOVERY-126A, DISCOVERY-226A, DISCOVERY-296A</p>
|}
|}


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== Device Configuration ==
==Configuration Guide==
This guide outlines how to configure the RS485-based ESCORT 485 fuel sensor on '''Transight Telematics''' devices using commands.
== Step 1: Select and Enable the Fuel Sensor Type ==


# Connect the sensor to the RS-485 port on the device.
Defines the sensor model and number of sensors.
# Open the '''Escort Configurator''' tool.
# Connect the COM Port and select '''FLS'''. The value present in the sensor will load.
'''• Command Format'''
#
<pre>
# If the sensor is in **periodic mode**, data will be sent every 2 seconds (fixed interval).
# If the sensor is in **passive mode**, data will be sent only on request.
#
# Connect using the '''QCOM tool''' to verify whether the fuel data is visible after configuring parameters for the connected fuel sensor.


=== Command Reference ===
SET CUFUELTYPE:&lt;Sensor Model&gt;,&lt;Number of Sensors&gt;
</pre>
'''• Example'''
<pre>
 
SET CUFUELTYPE:ESCORT485,1
</pre>
'''• Expected Response'''
<pre>


==== For Active Mode ====
IMEI: 862942074896044


Command: SET CUFUELTYPE:ESCORT485,1
Response: ESCORT485,
Error : 0
</pre>
'''• Verification Command'''
<pre>
<pre>
SET CUENSDA:ON,CUSRLSRC:SRLGEN,CUSRLDATACFG:1-0-0-0-0-0-0-0-0
 
GET CUFUELTYPE
</pre>
</pre>
'''• Expected Response'''
<pre>
IMEI: 862942074896044
Command: GET CUFUELTYPE
Response: ESCORT485,1


==== For Request Mode ====
Error : 0
</pre>
== Step 2: Configure Fuel Sensor Communication Parameters ==


Set communication mode and output settings.
'''• Command Format'''
<pre>
<pre>
SET CUENSDA:ON
 
SET CUSRLSRC:<sensor model>
SET CUFUELDATACFG:&lt;Sensor&gt;,&lt;Index&gt;,&lt;Network Address&gt;,&lt;Mode&gt;,&lt;Filter Type&gt;,&lt;Filter&gt;,&lt;Interval&gt;
    ESCORT485  --> For Escort Fuel sensor
    SRLGEN    --> For other fuel sensors
SET CUSRLDATACFG:1-0-0-0-0-0-0-0-0
SET CUFUELUR:20            // Set request interval in seconds
SET CUENFUELREQ:1          // Enable request mode (1: Enable, 0: Disable)
SET CUFUELNOS:<no.of sensors>
SET CUFUELDATAREQ:1-0x31-0x01-0x06-0x6c    // Get fuel data
SET CUESCOSTAT:0x31-0x01-0xf0-0xc5        // Get sensor status from escort fuel sensor.
SET CUESCOMED:0x31-0x01-0xF2-0xA5-0x1B-0xC7-0x00-0x45-0x83    // Get median 5
GET CUSRLDATA              // Get SMS Response for above commands
</pre>
</pre>
'''• Example'''
<pre>
SET CUFUELDATACFG:ESCORT,1,00,PASSIVE1023,SMART,SMART_0
</pre>
'''• Expected Response'''
<pre>
IMEI: 862942074896044
Command: SET CUFUELDATACFG:ESCORT,1,00,PASSIVE1023,SMART,SMART_0
Response:
Error : 0
</pre>
'''• Verification Command'''
<pre>
GET CUFUELDATACFG:ESCORT,1
</pre>
'''• Expected Response'''
<pre>
IMEI: 862942074896044
Command: GET CUFUELDATACFG:ESCORT,1
Response: Mode: 0, Address: 0, Filter Type: 0, Filter: 0 Interval: 0
Error : 0
</pre>
== Parameter Reference Table ==
{| class="wikitable"
! style="background-color:#680022; color:white;" | Parameter
! style="background-color:#680022; color:white;" | Value Example
! style="background-color:#680022; color:white;" | Description
|-
| Param1 || ESCORT || Sensor type identifier
|-
| Param2 || Index = 1 || Defines sensor instance (1 to 3 supported)
|-
| Param2 || Network Address = 0x01 || RS485 address (0x00 to 0xE7)
|-
| Param3 || Mode = PASSIVE1023 || Modes: PASSIVE / FREQUENCY / PERIODIC with 1023 or 4095 resolution
|-
| Param4 || Filtertype = SMART || Type of filtering: SMART or MEDIAN
|-
| Param5 || Filter = SMART_0 || Filter preset: SMART_UPTO_200, SMART_200_1000, MEDIAN_0 to MEDIAN_9
|-
| Param6 || Output interval = 10 || Time between sensor readings (in seconds)
|}
== Step 3: Set Fuel Sensor Output Interval ==
Configures periodic data transmission interval.
'''• Command Format'''
<pre>
SET CUFUELMODE:&lt;SENSOR INDEX&gt;,&lt;Mode (1=Request, 0=Periodic)&gt;,&lt;Interval&gt;
</pre>
'''• Example'''
<pre>
SET CUFUELMODE:1,1,15
</pre>
'''• Expected Response'''
<pre>
IMEI: 862942074896044
Command: SET CUFUELMODE:1,1,15
Response:
Error : 0
</pre>
== ⚠️ Mandatory Save Command ==
After completing all configurations, save them with:
<pre>
SET CUMR:2
</pre>
==Step 4: Verify Fuel Data Transmission ==
Once configured, the device will transmit fuel data via telemetry.
'''🔍 Validation Checklist'''
* Monitor incoming telemetry on your server
* Confirm:
** Fuel level values are present
** Values update periodically
** Readings are consistent and accurate
===Product Link===
===Product Link===
[[https://www.fmeter.ru/en/produktsiya/datchik-urovnja-topliva/eskort-td-150/ Escort FLS]]
[[https://www.fmeter.ru/en/produktsiya/datchik-urovnja-topliva/eskort-td-150/ Escort FLS]]

Latest revision as of 06:07, 22 October 2025

Introduction to the Product

The sensor ESCORT TD-150 determines the fill level of light oils in reservoirs (storage tanks). It is used as a fuel sensor in the automotive engineering field, and also as a level sensor for any light oils in industrial applications. The sensor converts the calculated fuel level into a digital code, frequency, or analog signals. It is a complete, finished solution.

To ensure explosion protection, it is necessary to connect a resistor of the appropriate rating to the power supply circuit. The presence of a resistor depends on the scope of delivery.

Product Specification

Parameter Value
Power supply voltage 7 – 80 V
Current, no more 30 mA
Reduced measurement error in the effective range up to 1% UML22
Operating modes Digital, Frequency, Analog
Sensitivity (Receiver / Transmitter) -96 dBm / 4 dBm
Operating frequency range (BLE) 2.402 – 2.480 GHz
Ambient temperature -45 to +50 °C
Extreme ambient temperature -60 to +85 °C
Air pressure 84 – 106.7 kPa
Suitable for explosion hazardous areas Zones 0, 1, and 2
Weight (kg) 0.35 + 0.4 × L (L = sensor length in meters)
Supported by

DISCOVERY-126A, DISCOVERY-226A, DISCOVERY-296A

Wiring Information

Wire Color Function
Red Power
Black GND
Orange RS485 A
White RS485 B

Configuration Guide

This guide outlines how to configure the RS485-based ESCORT 485 fuel sensor on Transight Telematics devices using commands.

Step 1: Select and Enable the Fuel Sensor Type

Defines the sensor model and number of sensors.

• Command Format 


SET CUFUELTYPE:<Sensor Model>,<Number of Sensors>

• Example 


SET CUFUELTYPE:ESCORT485,1

• Expected Response 


IMEI: 862942074896044

Command: SET CUFUELTYPE:ESCORT485,1
 
Response: ESCORT485, 

Error : 0

• Verification Command 


GET CUFUELTYPE

• Expected Response 


IMEI: 862942074896044

Command: GET CUFUELTYPE
 
Response: ESCORT485,1

Error : 0

Step 2: Configure Fuel Sensor Communication Parameters

Set communication mode and output settings.

• Command Format 


SET CUFUELDATACFG:<Sensor>,<Index>,<Network Address>,<Mode>,<Filter Type>,<Filter>,<Interval>

• Example 


SET CUFUELDATACFG:ESCORT,1,00,PASSIVE1023,SMART,SMART_0

• Expected Response 


IMEI: 862942074896044

Command: SET CUFUELDATACFG:ESCORT,1,00,PASSIVE1023,SMART,SMART_0
 
Response:

Error : 0

• Verification Command 


GET CUFUELDATACFG:ESCORT,1

• Expected Response 


IMEI: 862942074896044

Command: GET CUFUELDATACFG:ESCORT,1
 
Response: Mode: 0, Address: 0, Filter Type: 0, Filter: 0 Interval: 0

Error : 0

Parameter Reference Table

Parameter Value Example Description
Param1 ESCORT Sensor type identifier
Param2 Index = 1 Defines sensor instance (1 to 3 supported)
Param2 Network Address = 0x01 RS485 address (0x00 to 0xE7)
Param3 Mode = PASSIVE1023 Modes: PASSIVE / FREQUENCY / PERIODIC with 1023 or 4095 resolution
Param4 Filtertype = SMART Type of filtering: SMART or MEDIAN
Param5 Filter = SMART_0 Filter preset: SMART_UPTO_200, SMART_200_1000, MEDIAN_0 to MEDIAN_9
Param6 Output interval = 10 Time between sensor readings (in seconds)

Step 3: Set Fuel Sensor Output Interval

Configures periodic data transmission interval.

• Command Format 


SET CUFUELMODE:<SENSOR INDEX>,<Mode (1=Request, 0=Periodic)>,<Interval>

• Example 


SET CUFUELMODE:1,1,15

• Expected Response 


IMEI: 862942074896044

Command: SET CUFUELMODE:1,1,15
 
Response:

Error : 0

⚠️ Mandatory Save Command

After completing all configurations, save them with: 


SET CUMR:2

Step 4: Verify Fuel Data Transmission

Once configured, the device will transmit fuel data via telemetry.

🔍 Validation Checklist

  • Monitor incoming telemetry on your server
  • Confirm:
    • Fuel level values are present
    • Values update periodically
    • Readings are consistent and accurate


Product Link

[Escort FLS]

Retrieved from "https://telematics.transight.com/index.php?title=ESCORT_TD-150_FUEL_SENSOR&oldid=1251"