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+====== Module CN03 of the BITREK CONNECT system ======
+{{ :ru:внешний_вид_модуля_v02.jpg?direct |}}
+----
+===== Purpose of the device =====
+The CN03 module of Bitrek Connect system is intended for
+to control technical operating parameters of vehicles
+equipped with the CAN bus and transmit these parameters to the
+Connect-Bus. In addition, the module can work with fuel level sensors
+fuel level sensors, RFID-readers and threshold sensors via
+interface RS-485.
+----
+===== Package Contents =====
+The CN03 of Bitrek Connect comes with the following
+configuration:
+  * CN03 module - 1 pc;
+  * Data sheet - 1 pc;
+  * Warranty card - 1 pc;
+  * Packing box - 1 pc.
+  * MicroFit 4-pin cable - 1 pc.
+  * MicroFit 6-pin cable - 1pc.
+  * Rubber seal - 3 pcs.
+----
+===== Technical characteristics of the device =====
+Technical characteristics of the device are presented in Table 1.
+Table 1: Technical specifications of the device
+^Parameters ^ Characteristics^
+|Supply voltage | 12 V or 24 V |
+|Type of current consumption | (12V) 50mA |
+|Interface for connection of fuel level sensors, RFID readers and threshold sensors | RS485|
+|CAN standard | 29 bit (FMS), 11 bit|
+|Maximum number of fuel level sensors | 8 |
+|Maximum number of RFID readers |4|
+|Maximum number of threshold sensors | 15|
+| Operating temperature | from -30 °C to +80 °C|
+|Allowable humidity | 80 +/- 15% |
+|Dimensions (W x L x H) | 78 x 83 x 30 mm|
+|Protection class of enclosure | IP44|
+|Net weight | 80 gr.|
+| gross weight | 110 g|
+----
+===== Appearance and dimensions of the device =====
+{{ :ru:внешний_вид_и_габаритные_размеры_ex03.jpg?direct |}}
+Fig.1. Appearance and dimensions
+----
+===== Pin assignment =====
+The CN03 module is equipped with three Micro-Fit connectors (Fig. 2).
+{{ :ru:внешний_вид_разъёмов_cn03.png?direct |}}
+Fig.2. The appearance of the connectors
+The four-pin connectors (Fig. 3) are
+Connect-Bus connectors, which have the power outputs of the module and the outputs
+signal lines of the bus.
+{{ :ru:разъёмы_connect-bus_1_и_2.jpg?direct |}}
+Fig.3. Connect-Bus connectors #1 and #2
+The pinout of the Connect-Bus connectors is shown in Table 2.
+Table 2 The pin-out of the Connect-Bus connectors No.1 and No.2
+^№^Pin name^Signal type^Pin assignment^
+^1| GND| Power supply|General lead (ground)|
+^2| CAN L|Input/output|Signal "CAN_L" of the CAN bus|
+^3| + Vin| Power supply|"+" On-board power supply (nominal voltage 12 V or 24 V)|
+^4| CAN H | input/output| Signal "CAN_H" on the CAN bus |
+The six-pin connector (Fig.4) is the connector for
+fuel level sensors, threshold sensors and RFID readers.
+It has power outputs of sensors, RS485 signal lines and
+signal lines of the vehicle CAN bus.
+{{ :ru:разъём_для_подключения_внешних_устройств.jpg?direct |}}
+Fig.4. Connector for connecting external devices
+The pinout of the connector for connecting external devices
+is presented in table 3.
+Table 3. External device connector pinout
+^№^Pin name ^ Signal type ^ Pin assignment ^
+^1 | GND | power supply | common ground|
+^2 | CAN H | input/output | CAN_H signal|
+^3 | RS485 A| input/output | RS485 "A" signal|
+^4 |+ Vin | Power output | "+" on-board power supply (to power external devices)|
+^5 | CAN L | input/output | "CAN_L" signal on the CAN bus|
+^6 | RS485 B| input/output | RS485 "B" signal|
+----
+===== Description of indications =====
+On the front panel of the module, on the connector side, there are
+two LEDs on the connector side of the front panel, which indicate the current status of the device.
+**Red LED** - blinks when RS-485 communication is successful
+**Green LED** - lights steadily when the device
+continuously illuminates when device is successfully started up.
+----
+===== Setting up the CN03 module =====
+The CN03 has a number of configurable parameters
+of which are listed in Appendix 1. To configure the module
+module, the Bitrek Connect configurator module is used, as well as
+Connect Configurator software. How to work with the configurator module and
+Software are described in detail in the "Guidelines for organizing and configuring
+Bitrek Connect".
+==== Configuring the module to work with arbitrary PGN ====
+Parameters FMSPGN00 to FMSPGN19 are used to configure
+arbitrary PGNs with a bit size of 11 bits or 29 bits expected on the
+CAN bus of the vehicle and transmitted to the Connect-
+Bus, with address swapping to the current address of the module on the bus. If
+parameter is zero, this PGN is considered disabled and is not
+is considered to be disabled and does not participate in operation. These parameters are set in HEX view and
+have the following format:
+//PRIO PGN ADDR//.
+where:\\
+PRIO - message priority;\\
+PGN is the message body (PGN);\\
+ADDR is the sender's address.\\
+For example: there is a need to set up an arbitrary PGN
+FEE900 (Fuel Consumption: LFC, 1000 mS).
+To do this, the value 18FEE900 (Fuel Consumption: LFC: 1000 mS) must be entered in the "Arbitrary PGN00" parameter (ID7800)
+write the value 18FEE900 (Fig.5). Then set the digit capacity
+PGN00 parameter is 29 bits, since this PGN is 29-
+bit (Fig.6). This can be done using the Connect
+Configurator.
+{{ :ru:установка_значения_произвольного_pgn.jpg?direct |}}
+Figure 5. Setting the value of an arbitrary PGN
+{{ :ru:установка_разрядности_произвольного_pgn.jpg?direct |}}
+Fig.6. Setting the arbitrary PGN bit value
+The CAN reception filter will then be configured to receive
+messages from CANID 18FEE900. After receiving such a message
+the current address of the message will be replaced by the peripheral address
+of the CN03 module and it will be broadcast to the Connect-Bus.
+==== Configuring the module for operation with fuel level sensors ====
+Each fuel level sensor connected to the CN03 module
+must be preset. The adjustment includes
+is to assign each sensor on the RS485 bus a network address.
+After the network addresses of fuel level sensors are assigned,
+you can configure the CN03 module.
+Open the tree-like list of the module parameters by pressing
+the "+" symbol. The Settings group is displayed in the list. In the subgroup
+"RS485 remote control unit" you must configure the following parameters: "Address
+RS485 address" (Fig.7) and "Resolution of RS485 polling" (Fig.8). Parameters "Interval
+Interrogation period" and "Time of FLS transfer to Connect-Bus" parameters can be left unchanged.
+leave them unchanged.
+{{ :ru:назначение_адреса_датчика_уровня_топлива.jpg?direct |}}
+Fig.7. Fuel level sensor address assignment
+{{ :ru:разрешение_опроса_датчика.jpg?direct |}}
+Fig.8. Sensor polling permission
+After that the CN03 module will poll the fuel
+fuel level sensor, which is on the 1st network address on the bus
+RS485 BUS. The received data message will be translated into
+the Connect-Bus.
+==== Setting up the module to work with RFID readers ====
+Setting up the module to work with RFID readers
+the module is configured in the same way. In the "RFID
+RS485" setting group, you must specify the reader address on the RS485 bus and
+enable the module to interrogate it. Parameters "RFID polling period" and
+The "Period of RFID transmission to Connect-Bus" parameters can be left unchanged.
+parameters can be left unchanged.
+**Note:**\\
+The communication between RFID readers and the CN03 module
+according to the RCS SOVA protocol
+==== Configuring the module to work with RS485 threshold sensors ====
+Each threshold sensor connected to the module must
+must be pre-configured. The configuration comes down to setting up
+a unique network address on the RS485 bus for each threshold
+network address on the RS485 bus for each threshold sensor. To configure the network address of the threshold sensors
+The FL Configurator software is used to set the network address.
+**Note:**.\\
+The network addresses of the threshold sensors must not be the same as
+Note: The network addresses of the threshold sensors must not be the same as the network addresses of the fuel level sensors in use.
+Then in the subset of the CN03 "Threshold Sensors
+RS485 sensors" subgroup of the CN03 module settings, you need to enable the sensor polling, specify its network
+network address on the RS485 bus, specify upper and lower thresholds
+of operation (Fig.9). These parameters must be configured
+separately for each of used threshold sensors.
+{{ :ru:настройка_пороговых_датчиков_rs485.jpg?direct |}}
+Figure 9. Setting up the RS485 threshold sensors
+Up to 15 sensors can be connected to the module
+simultaneously. In this case it is recommended to allow polling only
+actually connected sensors.
+There are 15 parameters in the CN03 settings (id 431 -
+id 445) to specify the network addresses of the connected sensors. When
+When specifying the network addresses, the following principle should be followed: The network address of the
+the net address of the lowermost sensor must be entered in the parameter corresponding to the 1st sensor.
+the parameter corresponding to the 1st sensor in the CN03 module and then
+in order.
+**Note:**.\\
+The upper and lower thresholds are set according to
+Note: The upper threshold can be adjusted as below.
+**The "Upper Threshold "** is the sensor value above which the CN03 decides
+above which the CN03 decides that the sensor has
+triggered. The value written in this field should be 15-
+% less than the actual value obtained with
+with the sensor immersed in the grain. This is to ensure that the sensor
+of the sensor operation.
+**"Lower threshold "** is the sensor value at which the
+CN03 module decides that the sensor has gone from the active
+"triggered" state to the inactive state. The value written in
+This field should be 15-35% greater than the actual
+value of the empty sensor.
+**Sample of setting:** Threshold sensors are mounted in the hopper,
+hopper empty, all sensors have the zero level calibrated at
+c.u. level. The hopper is then filled with grain so that
+several sensors are filled. After filling
+their readings must be recorded. For example: The filled sensors
+showed a level of 200. In this case, in the "Upper threshold" field you must
+, and in the "Lower Threshold" field - 130.
+----
+===== Preset PGNs of FMS standard =====
+The CN03 module has a group of preset FMS standard PGNs
+(J1939) that are monitored and transmitted to the Connect-
+Bus always, regardless of the settings of the arbitrary PGNs. A list of such
+PGNs are listed in Table 4.
+The principle of operation of the device is as follows: The module receives all
+messages whose CANID contains a PGN from the list of
+preset list, ignoring the priority of the message and the
+ignoring the priority of the message and the sender address. The received CANIDs are transmitted to the Connect-Bus with
+priority 0x18 and the address of the CN03 module.
+Table 4. List of preset PGNs
+^ No. ^ PGN ^ Description ^
+^1 | 0x18FEE900 | amount of fuel used|
+^2 | 0x18FEFC00 | Fuel level|
+^3 | 0x18FEF200 | hourly fuel consumption|
+^4 | 0x18FEF200 | Instantaneous fuel economy|
+^5 | 0x18FD0900 | High-resolution fuel consumption total|
+^6 | 0x18F00400 | Engine RPMs|
+^7 | 0x18F00400 | Actual engine torque|
+^8 | 0x18FEE500 | Engine running time|
+^9 | 0x18FEEE00 | engine coolant temperature|
+^10 | 0x18F00300 | engine load percentage at current speed|
+^11 | 0x18F00500 | Gearbox current gearbox|
+^12 | 0x18F00500 | Selected transmission gear|
+^13 | 0x18FEE800 | Compass bearing|
+^14 | 0x18FEE800 | GPS/GLONASS speed|
+^15 | 0x18FEE800 | GPS/GLONASS angle deviation|
+^16 | 0x18FEE800 | GPS altitude|
+^17 | 0x18FEF300 | Latitude|
+^18 | 0x18FEF300 | Longitude|
+^19 | 0x18FEC100 | Vehicle Mileage|
+^20 | 0x18FEF500 | Ambient temperature|
+^21 | 0x18FEF100 | Vehicle speed determined by the rotation of the wheels|
+^22 | 0x18FEF100 | clutch pedal|
+^23 | 0x18FEF100 | brake pedal|
+^24 | 0x18FEF100 | cruise control|
+^25 | 0x18F00300 | Accelerator pedal position 1|
+^26 | 0x18FE7000 | Total vehicle weight|
+^27 | 0x18FEF100 | parking brake switch|
+^28 | 0x18FE4E00 | Door position 2|
+^29 | 0x18FE4E00 | Door position|
+----
+===== List of variables broadcast to the CONNECT-BUS =====
+^**№** ^ **Parameter Name** ^ **  Size  ** ^  PGN  ^  Start Bit  ^  Bit Total  ^  Time Out  ^
+^  **Systems**  ^||||||
+^1 | Device model |  4  | 18F713 |  0  |  32  |  10  |
+^2 | software version |  4  | 18F713 |  32  |  32  |  10  |
+^3 | module operating time |  4  | 18F712 |  0  |  32  |  10  |
+^4 | number of module restarts |  4  | 18F712 |  32  |  32  |  10  |
+^  **CAN J1939 (FMS Standard)**  ^||||||
+^5 | Fuel consumption |  4  | 18FEE9 |  32  |  32  |  0  |
+^6 | Fuel level 1 |  1  | 18FEFC |  8  |  8  |  0  |
+^7 | hourly fuel consumption |  2  | 18FEF2 |  0  |  16  |  5  |
+^8 | Instantaneous fuel economy |  2  | 18FEF2 |  16  |  16  |  5  |
+^9 | High-resolution fuel economy |  4  | 18FD09 |  32  |  32  |  0  |
+^10 | engine rpm |  2  | 18F004 |  24  |  16  |  5  |
+^11 | motor running time |  4  | 18FEE5 |  0  |  32  |  0  |
+^12 | Engine coolant temperature |  1  | 18FEEE |  0  |  8  |  5  |
+^13 | Engine load percentage at current speed |  1  | 18F003 |  16  |  8  |  5  |
+^14 | actual engine torque |  1  | 18F004 |  16  |  8  |  5  |
+^15 | current gearbox |  1  | 18F005 |  24  |  8  |  5  |
+^16 | selected gearbox |  1  | 18F005 |  0  |  8  |  5  |
+^17 | Compass azimuth |  2  | 18FEE8 |  0  |  16  |  0  |
+^18 | GPS/GLONASS speed |  2  | 18FEE8 |  16  |  16  |  0  |
+^19 | GPS/GLONASS angle deviation |  2  | 18FEE8 |  32  |  16  |  0  |
+^20 | GPS/GLONASS altitude |  2  | 18FEE8 |  48  |  16  |  0  |
+^21 | GPS/GLONASS latitude |  4  | 18FEF3 |  0  |  32  |  0  |
+^22 | GPS/GLONASS Longitude |  4  | 18FEF3 |  32  |  32  |  0  |
+^23 | Vehicle Mileage |  4  | 18FEC1 |  0  |  32  |  0  |
+^24 | ambient temperature |  2  | 18FEF5 |  24  |  16  |  5  |
+^25 | Vehicle speed determined by the movement of the wheels |  2  | 18FEF1 |  8  |  16  |  5  |
+^26 | Clutch pedal |  1  | 18FEF1 |  30  |  2  |  5  |
+^27 | brake pedal |  1  | 18FEF1 |  28  |  2  |  5  |
+^28 | cruise control |  1  | 18FEF1 |  24  |  2  |  5  |
+^29 | Accelerator pedal position 1 |  1  | 18F003 |  8  |  8  |  5  |
+^30 | Total weight of the vehicle |  2  | 18FEF70 |  16  |  16  |  0  |
+^31 | parking brake switch |  1  | 18FEF1 |  2  |  2  |  0  |
+^32 | Door position 2 |  1  | 18FE4E |  6  |  2  |  0  |
+^33 | door position |  1  | 18FE4E |  0  |  4  |  0  |
+^  **DROPPED RS485**  ^||||||
+^38 | FLS status 1 |  1  | 18F709 |  0  |  1  |  10  |
+^39 | FLS 2 status |  1  | 18F70A |  0  |  1  |  10  |
+^40 | FLS 3 status |  1  | 18F70B |  0  |  1  |  10  |
+^41 | FLS 4 status |  1  | 18F70C |  0  |  1  |  10  |
+^42 | FLS 5 status |  1  | 18F70D |  0  |  1  |  10  |
+^43 | FLS status 6 |  1  | 18F70E |  0  |  1  |  10  |
+^44 | FLS 7 status |  1  | 18F70F |  0  |  1  |  10  |
+^45 | FLS status 8 |  1  | 18F710 |  0  |  1  |  10  |
+^46 | Temperature of FLS 1 |  1  | 18F709 |  16  |  8  |  10  |
+^47 | Temperature of FLS 2 |  1  | 18F70A |  16  |  8  |  10  |
+^48 | Temperature of FLS 3 |  1  | 18F70B |  16  |  8  |  10  |
+^49 | Temperature of FLS 4 |  1  | 18F70C |  16  |  8  |  10  |
+^50 | Temperature of FLS 5 |  1  | 18F70D |  16  |  8  |  10  |
+^51 | Temperature of FLS 6 |  1  | 18F70E |  16  |  8  |  10  |
+^52 | Temperature of FLS 7 |  1  | 18F70F |  16  |  8  |  10  |
+^53 | FLS 8 temperature |  1  | 18F710 |  16  |  8  |  10  |
+^54 | Fuel FLS 1 |  2  | 18F709 |  24  |  16  |  10  |
+^55 | FLS fuel 2 |  2  | 18F70A |  24  |  16  |  10  |
+^56 | FLS fuel 3 |  2  | 18F70B |  24  |  16  |  10  |
+^57 | FLS fuel 4 |  2  | 18F70C |  24  |  16  |  10  |
+^58 | FLS fuel 5 |  2  | 18F70D |  24  |  16  |  10  |
+^59 | FLS fuel 6 |  2  | 18F70E |  24  |  16  |  10  |
+^60 | FLS fuel 7 |  2  | 18F70F |  24  |  16  |  10  |
+^61 | Fuel FLS 8 |  2  | 18F710 |  24  |  16  |  10  |
+^  RFID RS485  ^||||||
+^62 | RFID status 1 |  1  | 18F701 |  0  |  2  |  5  |
+^63 | RFID status 2 |  1  | 18F702 |  0  |  2  |  5  |
+^64 | RFID status 3 |  1  | 18F703 |  0  |  2  |  5  |
+^65 | RFID Status 4 |  1  | 18F704 |  0  |  2  |  5  |
+^66 | RFID card number 1 |  8  | 18F701 |  16  |  40  |  5  |
+^67 | RFID card number 2 |  8  | 18F702 |  16  |  40  |  5  |
+^68 | RFID card number 3 |  8  | 18F703 |  16  |  40  |  5  |
+^69 | RFID card number 4 |  8  | 18F704 |  16  |  40  |  5  |
+^  RS485 threshold sensors  ^||||||
+^70 | Level bitmask |  2  | 18F720 |  0  |  16  |  5  |
+^71 | grain level |  2  | 18F720 |  16  |  16  |  5  |
+^72 | Upper threshold |  2  | 18F720 |  32  |  16  |  5  |
+^73 | bitmask of allowed sensors |  2  | 18F721 |  0  |  16  |  5  |
+^74 | Bit mask of connected sensors |  2  | 18F721 |  16  |  16  |  5  |
+^75 | Threshold sensor 1 on RS485 bus |  1  | 18F731 |  0  |  8  |  5  |
+^76 | Threshold sensor 2 on the RS485 bus |  1  | 18F732 |  0  |  8  |  5  |
+^77 | Threshold sensor 3 on the RS485 bus |  1  | 18F733 |  0  |  8  |  5  |
+^78 | RS485 bus threshold sensor 4 |  1  | 18F734 |  0  |  8  |  5  |
+^79 | RS485 bus threshold sensor 5 |  1  | 18F735 |  0  |  8  |  5  |
+^80 | RS485 bus threshold sensor 6 |  1  | 18F736 |  0  |  8  |  5  |
+^81 | RS485 bus threshold sensor 7 |  1  | 18F737 |  0  |  8  |  5  |
+^82 | RS485 bus threshold sensor 8 |  1  | 18F738 |  0  |  8  |  5  |
+^83 | RS485 bus threshold sensor 9 |  1  | 18F739 |  0  |  8  |  5  |
+^84 | RS485 bus threshold sensor 10 |  1  | 18F73A |  0  |  8  |  5  |
+^85 | RS485 bus threshold sensor 11 |  1  | 18F73B |  0  |  8  |  5  |
+^86 | RS485 bus threshold sensor 12 |  1  | 18F73C |  0  |  8  |  5  |
+^87 | RS485 bus threshold sensor 13 |  1  | 18F73D |  0  |  8  |  5  |
+^88 | RS485 bus threshold sensor 14 |  1  | 18F73E |  0  |  8  |  5  |
+^89 | RS485 bus threshold sensor 15 |  1  | 18F73F |  0  |  8  |  5  |
+^90 | State of sensor 1 |  1  | 18F731 |  8  |  8  |  5  |
+^91 | State of sensor 2 |  1  | 18F732 |  8  |  8  |  5  |
+^92 | State of sensor 3 |  1  | 18F733 |  8  |  8  |  5  |
+^93 | Sensor 4 condition |  1  | 18F734 |  8  |  8  |  5  |
+^94 | Sensor 5 condition |  1  | 18F735 |  8  |  8  |  5  |
+^95 | Sensor 6 condition |  1  | 18F736 |  8  |  8  |  5  |
+^96 | sensor 7 condition |  1  | 18F737 |  8  |  8  |  5  |
+^97 | Sensor 8 condition |  1  | 18F738 |  8  |  8  |  5  |
+^98 | Sensor 9 condition |  1  | 18F739 |  8  |  8  |  5  |
+^99 | Sensor 10 condition |  1  | 18F73A |  8  |  8  |  5  |
+^100 | Sensor 11 condition |  1  | 18F73B |  8  |  8  |  5  |
+^101 | State of sensor 12 |  1  | 18F73C |  8  |  8  |  5  |
+^102 | State of sensor 13 |  1  | 18F73D |  8  |  8  |  5  |
+^103 | Sensor 14 |  1  | 18F73E |  8  |  8  |  5  |
+^104 | Sensor 15 |  1  | 18F73F |  8  |  8  |  5  |
+^105 | Temperature sensor 1 |  1  | 18F731 |  16  |  8  |  5  |
+^106 | Temperature sensor 2 |  1  | 18F732 |  16  |  8  |  5  |
+^107 | Temperature sensor 3 |  1  | 18F733 |  16  |  8  |  5  |
+^108 | Temperature sensor 4 |  1  | 18F734 |  16  |  8  |  5  |
+^109 | Temperature sensor 5 |  1  | 18F735 |  16  |  8  |  5  |
+^110 | Temperature sensor 6 |  1  | 18F736 |  16  |  8  |  5  |
+^111 | temperature sensor 7 |  1  | 18F737 |  16  |  8  |  5  |
+^112 | temperature sensor 8 |  1  | 18F738 |  16  |  8  |  5  |
+^113 | temperature sensor 9 |  1  | 18F739 |  16  |  8  |  5  |
+^114 | temperature sensor 10 |  1  | 18F73A |  16  |  8  |  5  |
+^115 | temperature sensor 11 |  1  | 18F73B |  16  |  8  |  5  |
+^116 | temperature sensor 12 |  1  | 18F73C |  16  |  8  |  5  |
+^117 | Temperature sensor 13 |  1  | 18F73D |  16  |  8  |  5  |
+^118 | temperature sensor 14 |  1  | 18F73E |  16  |  8  |  5  |
+^119 | Sensor temperature 15 |  1  | 18F73F |  16  |  8  |  5  |
+^120 | Sensor level 1 |  2  | 18F731 |  24  |  16  |  5  |
+^121 | Sensor level 2 |  2  | 18F732 |  24  |  16  |  5  |
+^122 | Sensor level 3 |  2  | 18F733 |  24  |  16  |  5  |
+^123 | Sensor level 4 |  2  | 18F734 |  24  |  16  |  5  |
+^124 | Sensor level 5 |  2  | 18F735 |  24  |  16  |  5  |
+^125 | Sensor level 6 |  2  | 18F736 |  24  |  16  |  5  |
+^126 | Sensor level 7 |  2  | 18F737 |  24  |  16  |  5  |
+^127 | Sensor level 8 |  2  | 18F738 |  24  |  16  |  5  |
+^128 | Sensor level 9 |  2  | 18F739 |  24  |  16  |  5  |
+^129 | Sensor level 10 |  2  | 18F73A |  24  |  16  |  5  |
+^130 | Sensor level 11 |  2  | 18F73B |  24  |  16  |  5  |
+^131 | Sensor level 12 |  2  | 18F73C |  24  |  16  |  5  |
+^132 | Sensor level 13 |  2  | 18F73D |  24  |  16  |  5  |
+^133 | Sensor level 14 |  2  | 18F73E |  24  |  16  |  5  |
+^134 | Sensor level 15 |  2  | 18F73F |  24  |  16  |  5  |
+^135 | Sensor polling resolution 1 |  1  | 18F731 |  56  |  8  |  5  |
+^136 | Sensor polling resolution 2 |  1  | 18F732 |  56  |  8  |  5  |
+^137 | Sensor 3 polling resolution |  1  | 18F733 |  56  |  8  |  5  |
+^138 | Sensor polling resolution 4 |  1  | 18F734 |  56  |  8  |  5  |
+^139 | Sensor polling resolution 5 |  1  | 18F735 |  56  |  8  |  5  |
+^140 | Sensor polling resolution 6 |  1  | 18F736 |  56  |  8  |  5  |
+^141 | Sensor polling resolution 7 |  1  | 18F737 |  56  |  8  |  5  |
+^142 | Sensor polling resolution 8 |  1  | 18F738 |  56  |  8  |  5  |
+^143 | Sensor polling resolution 9 |  1  | 18F739 |  56  |  8  |  5  |
+^144 | Sensor polling resolution 10 |  1  | 18F73A |  56  |  8  |  5  |
+^145 | Sensor polling resolution 11 |  1  | 18F73B |  56  |  8  |  5  |
+^146 | Sensor polling resolution 12 |  1  | 18F73C |  56  |  8  |  5  |
+^147 | Sensor polling resolution 13 |  1  | 18F73D |  56  |  8  |  5  |
+^148 | Sensor polling resolution 14 |  1  | 18F73E |  56  |  8  |  5  |
+^149 | Sensor polling resolution 15 |  1  | 18F73F |  56  |  8  |  5  |
+----
+===== Supplement 1. Device parameters =====
+^ Parameter name ^  ID when configured  ^  Parameter digit  ^ Parameter assignment ^  Default value  ^
+^  General  ^||||
+|CANSlaveAddr |  0200  |  1 byte  | device address on CONNECTBUS |  1  |
+|DevicePIN |  0400  |  4 bytes  | Device access password |  11111  |
+|CANSpeed |  0201  |  1 byte  | CAN speed setting |  250 kbit\s  |
+^  Arbitrary PGN  ^||||
+|PGNBitSize00 - PGNBitSize19 |  0401 - 0420  |  1 byte  | 1 byte Setting the arbitrary PGN bit rate |  0 (off)  |
+|FMSPGN00 - FMSPGN19 |  7800 - 7819  |  4 bytes  | PGN translated from vehicle CAN bus to CONNECT-BUS |  0 (off)  |
+^  RFID RS485  ^||||
+|AddrSova1 - AddrSova4 |  0211 - 0214  |  1 byte  | RFID SOVA address on the RS485 bus |  1 - 4  |
+|Sova1Ena - Sova4Ena |  0241 - 0244  |  1 byte  | SOVA RFID polling permission |  1  |
+|GetPeriodSova1 - GetPeriodSova4 |  0261 - 0264  |  2 bytes  | SOVA RFID polling period (*100 ms) |  100 (10 seconds)  |
+|SendPeriodSova1 - SendPeriodSova4 |  0281 - 0284  |  2 bytes  | Period of sending RFID SOVA to CONNECT BUS (*100 ms) |  10 (1 second)  |
+^  RS485 REMOTE CONTROL  ^||||
+|Fuel1Addr - Fuel8Addr |  0311 - 0318  |  1 byte  | RS485 bus address |  11 - 18  |
+|Fuel1Ena - Fuel8Ena |  0341 - 0348  |  1 byte  | Resolution of the FLS poll |  1  |
+|GetPeriodFuel1 - GetPeriodFuel8 | 0361 - 0368 |  2 bytes | RTC polling period (*100 ms) |  100 (10 seconds)  |
+|SendPeriodFuel1 - SendPeriodFuel8 |  0381 - 0388  |  2 bytes  | period to send the RTC values to the CONNECT-BUS |  10 (1 second)  |
+^  RS485 threshold sensors  ^||||
+|AddrSens1 - AddrSens15 |  0431 - 0445  |  1 byte  | RS485 threshold sensor address |  20 - 34  |
+|Sens1Ena - Sens15Ena |  0451 - 0465  |  1 byte  | Threshold sensor polling permission |  0 (off)  |
+|Sens1UpLimit - Sens15UpLimit |  0471 - 0485  |  2 bytes  | Threshold sensor upper level value |  170  |
+|Sens1DownLimit - Sens15DownLimit |  0491 - 0505  |  2 bytes  | value of low level threshold sensor |  120  |
+|GetPeriodSens1 - GetPeriodSens15 |  0397  |  2 bytes  | polling period of all threshold sensors (*100 ms) |  100 (10 seconds)  |
+|SendPeriodSens1 - SendPeriodSens15 |  0398  |  2 bytes  | Period of sending values of all threshold sensors to the CONNECTBUS (*100 ms) |  10 (1 second)  |