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EMTRON EIC USER MANUAL 

WWW.EMTRON.WORLD 

 

 

 

 

 

© EMTRON AUSTRALIA PTY LTD APRIL 2018 

17 

 

4.21 EIC Multiple Device Detection 

 

The following example uses the EIC10. Connect to the ECU using Emtune. Open the ECU 
Runtime menu (F3) and select the Communications Tab.  Within this tab will be a list of 
Emtron CAN devices that the ECU has detected. It will list: 

1.

 

CAN Device Model 

2.

 

Device Serial Number 

3.

 

Device Firmware Version 

4.

 

Device Hardware Version 

5.

 

CAN Base Address 

 

With 2x EIC10 devices connected to the CAN bus, the CAN Summary List should look similar 
to that shown in Figure 4.6. In this example the following devices have been detected:   

 

Device 1 - SN 1230 

 

Device 2 - SN 1225  

 

Figure 4.6 

Example showing two EIC10 devices detected by the ECU 

Note: 

ALL devices have the same Base Address of ID 718, which is the factory setting for a 

single device. To avoid Bus conflicts, the factory base address needs to be changed when 
multiple devices are used, to ensure each device has its own unique ID.  When re-
programming the Base Address for each device the IDs MUST be: 

1)

 

Sequential in order.

 

2)

 

Have a gap of 4 numbers between each EIC10 device. 

(Doesn’t apply to EIC16M as only one device permitted on the Bus) 

 

The Base Address ID can be any number but Emtron recommends the following: 

 

EIC10 Device 1: ID Base Address 718. (CAN ID Range 718-721) 

 

EIC10 Device 2: ID Base Address 722. (CAN ID Range 722-725) 
 

 
The following Base Address is recommended for the EIC16M devices: 
 

 

EIC16M Device 1: ID Base Address 705 (CAN ID Range 705-710) 

 

Summary of Contents for EIC10

Page 1: ...Z EIC10 EIC16M USER MANUAL Rev 1 0 Emtron Input Expansion to CAN...

Page 2: ...IC10 the following items are included EIC10 Device with Flying Harness Deustch DTM 4 way connector and female pins DTM06 4S Deustch DTM 12 way connector and male pins DTM04 12PA EIC10 kit pictured Whe...

Page 3: ...EIC Single Device Setup 14 4 11 EIC Device Detection 14 4 12 ECU CAN Configuration for Single Device 15 4 13 EIC Data Monitoring for Single Device 16 4 2 EIC Multiple Device Setup 16 4 21 EIC Multiple...

Page 4: ...d is waterproof allowing for use in extreme environments Installation is made simple through use of a Motorsport proven Deutsch Autosport connector system EIC10 The EIC10 is designed to increase the I...

Page 5: ...Edge Threshold 1 8V Falling Edge Threshold 1 0V EIC10 10 Analog Inputs ANV1 6 Analog Inputs 0 0V 5 0V Range Resolution 1 22mV 12 Bit ANV7 10 Frequency Input 1 4 o Analog Inputs 0 0 5 0V range Resoluti...

Page 6: ...s CAN 2 0B Baud Rate 250kBaud 500kBaud or 1Mbaud Auto Detect CAN Transmit Rate Adjustable 50Hz 100Hz 200Hz 500 Hz Operating Temperature Operating Temperature Range 30 to 100 C 22 to 212 F Physical EIC...

Page 7: ...ing Loom Connector DTM 4 pin M Pin Function Wire Colour 1 Ground BLACK 2 CAN Lo GREEN 3 CAN Hi YELLOW 4 12V Supply RED Table3 0 EIC10 Power and CAN Deustch Connector Pinout Analog Input Flying Loom Co...

Page 8: ...Voltage 4 0 0 5 0V No 9 Analog Voltage 5 0 0 5 0V No 10 Analog Voltage 6 0 0 5 0V No 11 Analog Voltage 7 0 0 5 0V No 12 Analog Voltage 8 0 0 5 0V No 13 Analog Voltage 9 0 0 5 0V Yes 14 Analog Voltage...

Page 9: ...time This allows each device to sync up to the CAN Bus baud rate and store that setting This typically takes 3 5 seconds The EIC10 and EIC16M leave the factory programmed with individual serial numbe...

Page 10: ...re suitable for temperature measurement or as ON OFF inputs by pulling the input to ground through a switch Analog Voltage Channels 13 16 Frequency Inputs 1 4 have software controlled 8V 1k Ohm pullup...

Page 11: ...dges are software selectable EIC10 Pin 9 Analog Voltage 7 or Frequency Input 1 Pin 10 Analog Voltage 8 or Frequency Input 2 Pin 11 Analog Voltage 9 or Frequency Input 3 Pin 12 Analog Voltage 10 or Fre...

Page 12: ...sors Analog Sensor 0V Reference Pin This pin should be connected directly to the 0V Ground pin on any low current analog sensor for example Pressure or Temperature DO NOT connect the EIC 0V Reference...

Page 13: ...e reflections and data loss CAN Bus termination must be done correctly by using a 120 ohm 0 25W resistor at each END of the bus system Maximum Stub length to a device from the main Bus is recommended...

Page 14: ...SER MANUAL WWW EMTRON WORLD EMTRON AUSTRALIA PTY LTD APRIL 2018 13 Figure 3 2 CAN Bus Wiring Example ECU and EIC10 at each end with 120 Ohm Termination Figure 3 3 CAN Bus Wiring Example Stub Length le...

Page 15: ...n detected connect to the ECU using Emtune Open the ECU Runtime menu F3 and select the Communications Tab Within this tab there will be a list of Emtron CAN devices that the ECU has detected It will l...

Page 16: ...the ECU to decode the EIC CAN packets For this example CAN 1 Channel 4 has been selected 1 Set Enable to 1 ON 2 Set CAN Base Address to the Base Address shown in Figure 4 0 4 1 In this example select...

Page 17: ...by default is the same for each device type The EIC10 has a factory CAN Base Address of 718 and EIC16M has a CAN Base Address of 705 When multiple EIC10 EIC16M devices are installed on the same CAN Bu...

Page 18: ...evice 2 SN 1225 Figure 4 6 Example showing two EIC10 devices detected by the ECU Note ALL devices have the same Base Address of ID 718 which is the factory setting for a single device To avoid Bus con...

Page 19: ...ce 2 ID Reprogramming Enter in Serial Number 1235 Enter in Custom Address 722 Make sure the Program Address checkbox is ticked Select the Program button and the new Custom Address ID will be programme...

Page 20: ...Lowest Base Address ID shown in Figure 4 8 In this example its 718 3 Set DATA Set to 74 Emtron EIC10 2x Devices CAN PID 718 722 The ECU is now configured and will receive data from all devices on IDs...

Page 21: ...gure 5 0 shows the following channel assignments Compressor Inlet Pressure assigned to EIC16M channel 1 Compressor Outlet Pressure assigned to EIC16M channel 2 Compressor Inlet Temperature assigned to...

Page 22: ...data is separated into 3 categories and can be independently adjusted There are Analog Voltage Channels 1 10 EIC10 Analog Voltage Channels 1 12 EIC16M Analog Voltage Channels 13 16 EIC16M Frequency 1...

Page 23: ...D APRIL 2018 22 Pullup Resistor Control Section 3 5 previously summarises the Pullup options To adjust these setting see Config view Communications Emtron CAN Devices Emtron Input to CAN Expansion Fig...

Page 24: ...Edge The Inputs can accept signals from Magnetic or Hall effect sensors Magnetic sensors should have the edge selected to Falling To adjust these setting see Config view Communications Emtron CAN Devi...

Page 25: ...EMTRON EIC USER MANUAL WWW EMTRON WORLD EMTRON AUSTRALIA PTY LTD APRIL 2018 24 7 0 Ordering Information Product Part Number Emtron EIC10 593 10 Emtron EIC16M 593 1613...

Page 26: ...tocols and data packaging Baud Rate The EIC will Auto scan the CAN bus until a successful baud rate has been detected Once detected this rate will be stored by the device and used at the next power up...

Page 27: ...table 50 100 200 500 Hz CAN ID Name Start bit Length bits Byte Order Data Type 706 0x2C2 AN Voltage 5 0 16 Little Endian Unsigned AN Voltage 6 16 16 Little Endian Unsigned AN Voltage 7 32 16 Little En...

Page 28: ...1 0 001 0 V 0 0 V 5 0V AN Voltage 12 0 001 0 V 0 0 V 5 0V ID 708 0x2C4 Default Data Voltage 3dp ID Type Standard 11 bit identifier Direction Transmit from Device Length 8 bytes Tx Rate Adjustable 50 1...

Page 29: ...Frequency 4 48 16 Little Endian Unsigned Continuation CAN ID Name Multiplier Offset Units Min Max Example 709 0x2C5 Frequency 1 0 1 0 Hz 0 20000 CAN 65201 6520 1 Frequency 2 0 1 0 Hz 0 20000 Frequenc...

Page 30: ...ltage 4 48 16 Little Endian Unsigned Continuation CAN ID Name Multiplier Offset Units Min Max Example 718 0x2CE AN Voltage 1 0 001 0 V 0 0 V 5 0V CAN 3046 3 046V AN Voltage 2 0 001 0 V 0 0 V 5 0V AN V...

Page 31: ...tage 3dp ID Type Standard 11 bit identifier Direction Transmit from Device Length 6 bytes Tx Rate Adjustable 50 100 200 500 Hz CAN ID Name Start bit Length bits Byte Order Data Type 720 0x2D0 AN Volta...

Page 32: ...CAN ID Name Start bit Length bits Byte Order Data Type 721 0x2D1 Frequency 1 0 16 Little Endian Unsigned Frequency 2 16 16 Little Endian Unsigned Frequency 3 32 16 Little Endian Unsigned Frequency 4...

Page 33: ...to the sensor operate are 4 8mA Two important checks must be completed 1 The polarity of the sensor must be correct 2 The pullup pulldown resistor might need adjustment to ensure it the digital signal...

Page 34: ...and High outputs levels will vary with different sensors so for signal integrity each sensor output should be checked using an oscilloscope Table 6 1 show some typical results from a Toyota Sensor Fig...

Page 35: ...UAL WWW EMTRON WORLD EMTRON AUSTRALIA PTY LTD APRIL 2018 34 Emtron Australia Pty Ltd Unit 8 36 Lidco Street Arndell Park NSW 2148 Australia See the www for contact information www emtron world www emt...

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