LINEEYE OP-SB85C Optional Kit For Multi Protocol Analyzer Instruction Manual

June 13, 2024
LINEEYE

LINEEYE OP-SB85C Optional Kit For Multi Protocol Analyzer

Product Information

Product Name Optional Kit for Multi-Protocol Analyzer
Model Numbers OP-SB85C, OP-SB1C, OP-1C
Description The optional kit is an expansion set used with the protocol

analyzer for monitoring, send/receiving test, and BERT of the current
loop communication.
Applicable Analyzer| LE-1100, LE-2100, LE-3100, LE-7000 (for OP-1C)
LE-1200, LE-2200, LE-3200, LE-7200 (for OP-1C)

Instruction

Thank you for your purchase of OP-SB85C / OP-SB1C / OP-1C.
To use it correctly, you are advised to read and understand this instruction manual thoroughly. Keep this together with the warranty. If you encounter any problems, you will find helpful information in this manual.

NOTICE

  • It is prohibited to reprint or duplicate any part of the whole of this instruction manual without prior permission from LINEEYE.
  • The content of this instruction manual and the specifications of the products are subject to change without any notice.
  • This instruction manual has been designed and edited with great care to give you all the necessary information. If you have any questions, feel free to direct your inquiries to LINEEYE.
  • LINEEYE makes no warranty or guarantee, either expressed or implied with respect to its quality, performance, merchantability, or fitness for a particular purpose. LINEEYE shall not be liable for direct, indirect, special, incidental, or consequential damages resulting from any defect in the product. The warranty and remedies set forth above are exclusive and in lieu of all others.

USER LIMITATION
This product has been developed for the purpose of use as an analyzer only.
When you use this product with the following devices that are required to function with a high degree of reliability, safety, and accuracy, use it under considering the safe design of the system in order to maintain reliability and safety for that system;

  • Devices that are directly related to transportation such as airplanes, trains, cars, etc.
  • Devices for crime prevention and disaster prevention.
  • Each kind of safety device and so on.

This product has not been developed for the use that needs exclusively high reliability and safety:
aerospace apparatus, trunk communication apparatus, nuclear control apparatus, medical apparatus related to life maintenance, etc. Therefore, do no use it for those purposes.

Safety Information

Read this first: Here, the important content has been described, for preventing the people who will use the object products and other people from being damaged and preventing damage og properties, and for using safely and correctly.
Before using, please read the main contents after you understand the following contents (symbols & marks).

Warning: Should the device be used without following these symbols, there is a possibility of accidents, such as a death or a serious injury, occurring.
Caution: Should the device be used without following these symbols, there is a possibility of accidents, such as injury and material damage occurring.

Warning

  • Stop using the analyzer immediately when smoke or smells emanate from it. Continuous use may result in an electric shock, a burn, and/or fire.

  • Stop using the analyzer immediately when smoke or smells emanate from it. Continuous use may result in an electric shock, a burn, and/or fire.

    • Immediately switch off the analyzer and unplug it.
  • Do not disassemble, modify, or repair the analyzer.
    This may result in an injury, an electric shock, a fire, an explosion, and/or a breakdown due to overheating.

  • Do not put the analyzer in fire or heat them.
    This may result in injury and fire due to overheating or explosion.

Caution

  • Do not leave the analyzer in the following conditions.
    Strong magnetic field, static electricity or dusty place.

Temperature and humidity above the specification. Condescendingly place.

  • Not flat, or shaking place.
  • A place with leaking water or electricity.
  • Place affected by direct sun or near the fire.

Before Using the Product

This option is the expansion board set used with the protocol analyzer for monitoring, send/receive test, and BERT of the current loop communication.

Model Applicable Analyzer Remarks
OP-1C LE-1100/LE-2100/LE-3100 To be connected directly to the option port

LE-7000 *1

LE-1200/LE-2200/LE-3200/LE-7200 *2

| To be connected to the separately-sold

interface board

OP-SB1C| LE-1500/LE-2500/LE-3500

LE-1500R/LE-2500R/LE-3500R LE-2500XR/LE-3500XR

| Set product which includes OP-1C and the interface board
OP-SB85C| LE-8200/LE-8200A| Set product which includes OP-1C and the

interface board

  • The interface board (included in OP-SB5C, discontinued product) is needed.
  • The interface board (included in SB-20L, OP-SB5F, or OP-SB6F – discontinued products) is needed.

Unpacking
When you unpack the product, make sure of the following:

  • The product has not been damaged during transportation.
  • You have received all the standard accessories listed below.

LINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-
FIG-21

Please contact your LINEEYE distributors if you find any damage to the product caused by transportation, or if there are accessories lacking.

Installation of Firmware

  • As the standard firmware of the analyzer supports this option, you do not need to install any other firmware to use it.
  • The latest version of the standard firmware is available on the LINEEYE website (https://www.lineeye.com/html/download_update.html). Please refer to the manual of the analyzer for how to update it.

Appearance of the Adapter

LINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-
FIG-1

Behavior as a Passive / Active Device
At the simulation mode (in which the analyzer sends data) and the BERT, you can change the behavior of the analyzer between the passive mode (which uses the power for the current loop from an external power source) and the active mode (which uses the constant current circuit of this adapter).
「2.2 Setting of Dip Switch」

Circuit block diagram of Input/Output

LINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-
FIG-2

Basic Operation

Connection

  • In the case of using LE-8200A/LE-8200
    Take a look at the graphics image on the left.

    • To exchange the interface board inserted in your analyzer with the interface expansion board (OP-SB85C, OP-SB85, or OP-SB85IR *1), follow the instructions.
    • Turn off your analyzer.
    • Screw off the M3 screws on the expansion slot of your analyzer.
    • Take the board off pulling the handles of the interface board.
    • Insert the interface expansion board (OP-SB85C, OP-SB85 or OP-SB85IR) into the slot completely.
    • Screw it on using M3 screws.
    • Connect the adapter of the current loop to the relay cable.
      Able to use the expansion board of OP-SB85L/85/85IR.
  • In the case of using LE-3500XR/LE-2500XR/LE-3500R/LE-2500R/LE-1500R
    When you use the product with LE-3500R/LE-2500R/LE-1500R, follow the direction for LE-8200/ LE-8200A(above) by inserting the interface sub-board included in the OP-SB1C package and connect the adapter for the current loop.

  • In the case of using LE-3500/LE-2500/LE-1500
    Connect OP-1C to the interface board*2 following the same procedure of LE- 8200A/8200.

    • 2 Use the expansion board (SB-25L) of OP-SB5GL/OP-SB5G or OP-SB6G.
  • In the case of using LE-7200/LE-3200/LE-2200/LE-1200
    Connect OP-1C to the interface board*3 following the same procedure of LE- 8200A/8200.

    • 3 Use the expansion board (SB-20L) of OP-SB5F or OP-SB6F.

The setting of Dip Switch
Set the dip switch of the adapter of the current loop following the test condition.

LINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-
FIG-4

  1. Set OFF for monitoring.
  2. The value of the current loop is available, only when “Active” is selected.

Connection and Setting for Monitoring

  1. The setting of the dip switch:
    Set OFF the dip switches No.1 and 3 of the adapter.

  2. Connection when monitoring the current loop between terminals A and B is monitored:LINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-FIG-5

Connection and Setting for Simulation (active type)

  1. The setting of the dip switch:
    Set ON the dip switch No.1 and 3 of the adapter to make the motion type “Active.”

  2. Connection to the passive type of the current loop device:LINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-FIG-6

Connection and Setting for Simulation (passive type motion)

  1. The setting of the dip switch:
    Set OFF the dip switch No.1 and 3 of the adapter to make the motion type “Passive.”

  2. Connection to the current loop device

    • a. Connection to the active type of the current loop deviceLINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-FIG-7
    • b. Connection to the passive type of the current loop deviceLINEEYE-OP-SB85C-Optional-Kit-For-Multi-Protocol-Analyzer-FIG-8

Signals (current) are supplied by ON/OFF operations of the phototransistors on the SI and SO sides of the OP-1C.

Setting of Analyzer

The setting of the Interface Board

  • In the case of using LE-8200A/LE-8200:
    Select “1: Interface” at the top menu and set the “Polarity” item to “Normal” or “Invert”. Other setting items such as “Level” do not affect the operation, thus they do not need to be changed. | space| mark
    ---|---|---
    Normal| Current ON

LED ON

| Current OFF

LED OFF

Invert| Current OFF

LED OFF

| Current ON

LED ON

  • In the case of LE-3500XR/LE-2500XR:
    Select “Interface” at the top menu and set the “Measurement port” item to “OPTION” and then set the “Polarity” item to “Normal” or “Invert”. Other setting items such as “Output type” do not affect the operation, thus they are not needed to be changed.

  • In the case of the other models:
    Select “1: Interface” at the top menu and set the “PORT” item to “OPTION” and then set the “Polarity” item to “NORMAL” or “INVERT”. Other setting items such as “LEVEL” do not affect the operation, thus they are not needed to be changed.

  • Basic communication conditions setting
    Press [0] at the top menu, and set the items such as communication speed, data bit, parity bit, etc. at the basic communication condition setting screen (configuration screen).

Current-Loop Current Polarity Remark

The current runs when there is

a communication data.

| Normal| Generally used for a to 1

communication

The current runs when there is

no communication.

| Invert| Generally used for communication

of multi-drop connection

< An example of Le-3500XR >****

Protocol ASYNC
Speed 9600 bps
Data code ASCII
Data bit 8bit
Parity None
Stop bit 1bit

Monitor and Simulation

Monitor Function

  • Start monitoring:
    Move “ “ to “ONLINE” in “Monitor” and press [RUN].
    The analyzer starts monitoring, and it displays the data on the screen and saves data in the Captute Buffer.

    • To learn more details about the monitor, read the instruction manual of the analyzer.

Simulation Function (data transmission)

  1. Register the transmission data:
    Move “ “ to “MANUAL” in “Simulation” and press “9: Data Send Table” to register the transmission data.

  2. Start simulation function:
    Move “ “ to “MANUAL” in “Simulation” and press [RUN].

  3. Transmit the registered data
    Press the key ([0] to [F]) to send data, which corresponds with the same number of the data table.
    To learn more details about the simulation, read the instruction manual of the analyzer.

Data Display

In the case of using LE-8200

(Data in the upper screen)

  • Monitor : Monitored data on the SD side.
  • Simulation: Transmission data of the analyzer

(Data in the lower screen)

  • Monitor: Monitored data in the RD side.
  • Simulation: Transmission data of the target device.

In the case of using the analyzers other than LE-3500XR/LE2500XR

(Data in the upper screen)

  • Monitor: Monitored data in the SD side
  • Simulation: Transmission data of the analyzer

(Data in the lower screen)

  • Monitor : Monitored data in the RD side
  • Simulation: Transmission data of the target device

Simple Loop Back Test (self-diagnosis test)
The simple loopback test is done when you want to confirm the performance of OP-1C/OP-SB85C/OP-SB1C.

Figure 1. Connection of loopback

Table 1. Communication condition of loopback test

Protocol ASYNC
Speed 9600 bps
Data code ASCII
Data bit 8bit
Parity None
Stop bit 1bit
  1. Set ON the dip switch No.1 and set OFF the dip switch No.3 of the current loop adapter. (The SD side is active and the RD side is passive.)
  2. The connection of loopback is set in Figure 1.
  3. Set the communication condition of the analyzer according to Table 1.
  4. Send the data in the same process as “3.2 Simulation Function”. And confirm that the received data is the same as the transmission data at the display.

Analog Wave Monitor Function

The analog wave monitor function measures the voltage value (range: ±12V) with the time resolution (max 25nsec), using the 3-line probe cable.

  • To use this function, you need to have LE-8200A/LE-8200 and the expansion board (OP-SB85 series).

Connection

  1. Connect the 3-line probe cable to the expansion board in the figure.
  2. Pick the measuring object using the 3-line probe cable.
  • Probe ( red ): Pick the measuring object. (Corresponding to AI1)
  • Probe ( blue ): Pick the measuring object. (Corresponding to AI2)
  • Probe ( black ): Pick the GND of the measuring object.

Attention
The absolute maximum rating of the analog measurement is ±25V. Please do not use for above the rating.

Setting

  1. From the top menu, press [4] to display the setting screen of the analog wave monitor function. Pressing [F1] to switch to the digital wave monitor screen.
  2. Make the analyzer calibrated if necessary.
  3. Set the necessary settings
    → 「4.6 Calibration」

Sampling
Select On/ Off of the analog wave monitor function
Range
Select the measuring range of the voltage level.
Clock
Sets the sampling clock.
(Please set the value of about 1/100 in the sampling clock that you want to measure.)

Trigger Conditions

Position
Set the position of the trigger in the sampling memory.

  • Before: Capture more data that exists before the trigger condition is satisfied.
  • Center: Capture the same amount of data in before and after the trigger condition is satisfied.
  • After: Capture more data that exists after the trigger condition is satisfied

Mode

  • Immediate: Trigger can be satisfied soon after measurement starts.
  • Full: Trigger can be satisfied after capturing full in the sampling memory. Select “Full” if “Position” is set to be“Before” or “Center”.
  • Continuous: The analyzer repeats waiting for the event for the trigger and displaying the data after the trigger is satisfied. This is the real-time display of Analog waveform while measuring.

Factor

  • Set the trigger condition of the analog monitoring function.
  • If the trigger condition is satisfied, the analyzer stops measuring and saves the data in the memory.

When the Factor is “Analog level”
The voltage value of the analog input becomes a trigger condition of the analog wave monitoring function.

Channel

  • Set a channel to apply the trigger.
  • AI1 stands for Channel1, and AI2 stands for Channel2

Slope

  • Set a slope to apply the trigger.
  • Select “Rising slope” or “Following slope”

Level
Select the voltage level to be the trigger condition.

When Factor is “Online”

  • The condition set at the trigger function will be the trigger condition of the analog wave monitor function.
  • Bit patterns and communication errors of the communication line can be a factor of the trigger.

Trigger No.
Select a trigger number.

To learn more details about the trigger function, read Chapter 5 or the instruction manual of the analyzer.

Control of Measuring

The analyzer can display the analog waveform on its screen after the measurement, if ” Immediate” or ” Full” is selected on “Mode”.

  1. Select “on” at the analog wave monitoring function, and press [Run].

  2. Press [Stop] to stop measuring.
    If the trigger condition is not still formed at the time when [Stop] is pressed, the trigger point will not appear.

  3. Press [Data] for several times to change the screen to the analog waveform.

If “Continuos“ is selected on “Mode“, the analog wave monitoring can be seen even while measuring.

  1. Press [Run] after making the function of the analog waveform active.
  2. Press [Data] for several times to change the screen to the analog waveform.
    If the sampling clock is set to a low speed like 1 ms, it may take several seconds until the analog waveform screen appears.

Description of the Measurement Screen

  1. Elapsed time since the trigger condition is satisfied.
  2. Trigger point ( red line )
  3. Marker point ( broken line of red )
  4. Cursor point ( broken line of blue )
  5. Cursor point, Marker point, and the voltage difference between two points.
  6. Time between the points of cursor and marker
  7. Time of cursor point and marker point.

Calibration
There is a simple calibration for the analog wave monitoring function. It is recommended to be finished before measurement.

  1. From the top menu, press [4] to display the screen of the analog wave monitor function. Press [F1] to switch to the digital wave measurement.
  2. Press [F5] to display the screen of calibration.
  3. Connect the AI1(red probe) and AI2(blue probe) to GND(black probe).
  4. Press [Run] to start calibration.
  5. After the calibration, press [Menu] to go back to the top menu.

Chapter 5 Specification

Applicable Analyzer| LE-1100/LE-2100/LE-3100/LE-7000 LE-1200/LE-2200/LE-3200/LE-7200 LE-1500/LE-2500/LE-3500

LE-1500R/LE-2500R/LE-3500R LE-2500XR/LE-3500XR

LE-8200/LE-8200A

---|---
Communication speed| MAX.19,200bps / MAX.38,400bps*1
Interface| Current loop (active type or passive type)
Current loop level| When acts as an active side (20mA or 40mA)

When acts as a passive side (from 10mA to 60mA)

Protection Circuit| Built-in protection diode for reverse connection, without overcurrent

protection circuit*2

Communication type| Half duplex / Full duplex
Function| Monitor / Simulation
Digital Waveform Analysis| The timing waveform analysis function of the analyzer is available. 3
Analog Waveform Analysis| The analog waveform analysis function of the analyzer is available.
4
Switch| Operation mode switching (active/passive operation)

Switching of supply current during active operation (20mA/40mA)

Current loop terminal block| 4-pole terminal block, 7.62mm pitch, for M3 round terminal / Y

terminal

Relay cable length| 0.8m
Power| supplied from the analyzer
Temperature and humidity range| In operation: 0 to 40 degrees Celsius, In storage: -10 to 50 degrees Celsius

Humidity: 20 to 80% RH

  1. The maximum communication speed varies depending on the version of the current loop adapter OP-1C. The maximum communication speed may be limited depending on the cable length and current value.
    OP-1C| Serial| Max. Speed
    ---|---|---
    Version 1| 2 0 X X X X XXX| 19200bps
    Version 2| 5 J X X X X X X| 38400bps
  2. Please be careful not to exceed 60mA when supplying the current loop current by the external power supply. If it exceeds 60mA, the internal circuit may be damaged.
  3. LE-1100 / LE-2100 / LE-3100 / LE-7000 are not supported.
  4. Supported by LE-8200 / LE-8200A only.

The card packed with the product is the user registration card for Japanese customers. For overseas customers, there is a registration page on our website.(www.lineeye.com)

CONTACT

  • ADDRESS: 4F., Marufuku Bldg., 39-1Karahashi Nishihiragaki-cho, Minami-ku, Kyoto, 601-8468 Japan
  • Phone: 81-75-693-0161
  • Fax: 81-75-693-0163

References

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