CelloCan IQ

CelloCan IQ
Manufacturer: Pointer Telocation
Forum Discussion

Number of units

2049
Online
3501
Total
Features CelloCan IQ:
  • Blackbox
  • Built-in odometer
Supported in Wialon:
  • ADC sensors
  • CAN-bus support
  • Remote management via GPRS
  • Digital sensors
  • SMS sending of data
  • Communication via TCP

The following data should also be added to CelloCan IQ unit properties section of Wialon GPS tracking software :

Device type: CelloCan IQ
Unique ID: serial
Password to access the object: Configuration password to access the object

Specify the following parameters in configuration software or configuration CelloCan IQ for use in Wialon Hosting :

Server port: 21362

3501 units of CelloCan IQ device type are connected to Wialon Data Center. This represents 0.15% of all AVL Hardware connected.

Below chart represents the dynamic of connections in the last 30 days:

Parameter name Description Units
adc Analog input sensor
mcc Mobile Country Code
mnc Mobile Network Code
lac Location Area Code
cell_id

cell ID

flag Current GSM Operator (2 nd and 3 rd Nibbles)
unit_status

0 bit - Communication with GPS is 1 - available / 0 - not available
1 bit - Network (0 - Home, 1 - Roam)
2 bit - Correct Time (1 - Invalid/estimated time stamp, 0 – Valid time stamp)
3 bit - Source of Speed (0 – GPS, 1 – Pulse frequency input)

reason Transmission Reason Specific Data
reason_data Transmission Reason
pwr_int

The voltage on the internal battery

pwr_ext

External power supply voltage

services

Bit 0 - Actual GNSS antenna selected (0 – Internal, 1 – External). (Relevant only for Cello GNSS variants)
Bit 1 - Trailer status indication. (0 – Trailer Disconnected, 1 – Trailer
Connected)

Bit 2 - 4 - CFE Type.

Bit 4 Bit 3 Bit 2 CFE Type
0 0 0 Not Applicable (Legacy state)
0 0 1 CFE is not connected
0 1 0 CFE BT is connected
0 1 1 CFE Basic is connected
1 0 0 CFE I/O is connected
1 0 1 CFE premium is connected
1 1 1 Undefined CFE Type

unit_mode

Unit Mode of Operation. The functioning of the unit can be generalized as a finite state machine model, with a few "stages" of operation. The "current stage" is referred to as "unit mode", or "mode of operation", as following:

Value Unit Mode Description
0x00 Standby Engine On
0x01 Standby Engine Off
0x02 Passive Arming (for security modifications)
0x03 Pre-Arming (for security modifications)
0x04 Alarm Armed (for security modifications)
0x05 Silent Delay (for security modifications)
0x07 Alarm Triggered (for security modifications)
0x0E Garage Mode
0x0F Transmissions Delay (for FW versions older than 25)
0x10 Towed mode (same as Standby Engine On, but with ignition off)

mode1, mode2

MODE 1 and Mode 2
These fields are generated by the GPS and transparently monitored in the outgoing message from the unit. The fields define the validity of GPS data in the message. The unit considers the valid fix according to the "Enable Tight GPS PMODE Filter" parameter (address 509, bit 7):
 If "Enable Tight GPS PMODE Filter" is enabled, the unit considers the GPS data as valid only if Mode 1 = 3 or 4 AND Mode 2 = 2
 If "Enable Tight GPS PMODE Filter" is disabled, the unit considers the GPS data as valid only if Mode 1 =2, 3, 4, 5 and 6

odom Mileage Counter (Odometer)
t8fwd_#_#

Prefix the naming of the parameters from the message of type 8 (Forwarded message).
If the protocol of the connected device provides for the transfer of the model name, it will be added to the prefix. For example: t8fwd_modelName_#.
Last part of the parameter name is the name of the parameter that the device sends.

curr_odo_count Current Odometer Count
curr_trip_fuel_cons

Current Trip Fuel Consumption (100 ml resolution)

ml
fuel_tank_lvl_ml

Fuel Tank Level (100 ml resolution)

ml
fuel_tank_lvl_pc

Fuel Tank Level

%
dlt_eng_hours_trip Delta engine hours in this trip Minutes
inputs

Inputs status (Bits 1 - 32):
1 Bit - Door;
2 Bit - Shock;
3 Bit - 5 Bit - reserv;
6 Bit - Driving Status (Ignition or accelerometer based)
7 Bit - 14 Bit - reserv;
15 Bit - Accelerometer status;
16 Bit - Ignition port status;
17 Bit - 18 Bit - reserv;
19 Bit - Grad. Stop;
20 Bit - GPS Power;
21 Bit - 24 Bit - reserv;
25 Bit - LED out;
26 Bit - 27 Bit - reserv;
28 Bit - Blinkers;
29 Bit - reserv;
30 Bit - Standard Immobilizer;
31 Bit - reserv;
32 Bit - Charger status.



outputs

Outputs status (Bits 1 - 16):
1 Bit - 2 Bit - reserv;
3 Bit - Grad. Stop;
4 Bit - GPS Power;
5 Bit - 8 Bit - reserv;
9 Bit - LED out;
10 Bit - 11 Bit - reserv;
12 Bit - Blinkers;
13 Bit - reserv;
14 Bit - Standard Immobilizer;
15 Bit - reserv;
16 Bit - Charger status.

event_reason

Driver Behavior Event Reason (Module 70)

event_subreason

Driver Behavior Event Sub Reason and Description (Module 70)

esr_crash_orientation

Crash Orientation (Driver Behavior Event Sub Reason and Description)

0 - Info Initialization
1 - Front
2 - Front Left
3 - Front Right
4 - Side Left
5 - Side Right
6 - Rear
7 - Rear Left
8 - Rear Right
9 - Down
10 - Up

esr_roll

Roll (Driver Behavior Event Sub Reason and Description)

0 - Roll Detected
1 - No Roll Detected

esr_parking

Parking (Driver Behavior Event Sub Reason and Description)

0 - Crash while Driving
1 - Crash while Parking

esr_calibration_status

Calibration Status (Driver Behavior Event Sub Reason and Description)

0 – Calibration Started
1 – Calibration OK
2 – Bad Installation
3 – Calibration in Progress
4 – Calibration Error

esr_step_number

Step Number (1-10) (Driver Behavior Event Sub Reason and Description)

esr_phase_number

Phase Number (Driver Behavior Event Sub Reason and Description)

0 – Phase 1
1 – Phase 2

op_mode

Operational Mode (Module 70 – Driver Behavior Event)

om_engine_status

Operational Mode (Module 70 – Driver Behavior Event)

Engine Status
0 - Off
1 - On

om_calibration_status

Operational Mode (Module 70 – Driver Behavior Event)

Calibration Status
0 - Ready
1 - Calibrating

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