PRODUCT

Multi-protocol analyzer LE-7200-EMulti-protocol analyzer LE-7200-EMulti-protocol analyzer LE-7200-EMulti-protocol analyzer LE-3200-E
This model is discontinued. The successor is LE-3500XR.
LE-3200-E is a compact protocol analyzer equipped as standard with Max. online monitoring, simulation, and BERT. It enables a measurement test for a communication circuit at max. 1.544Mbps. In addition, it is the upgraded model of LE-3100 and has been CE marked.
See options LE-PC300G | Interface Sub Board | Option Table
See details on product Specifications | Appearance | Standard Accessories
[ Features ]
Enables measurement at max. 1Mbps (Full duplex).
Equips RS-232C and RS-422/485 (RS-530) as a standard.
Supports X.21 and RS-449 by use of the dedicated cable only .
3.6MB memory, the compact flash card (max. 2GB) makes it possible to continuously record more measurement data
PC Link software that enables communication between the analyzer and a PC.
The 2.5 hours recharge enables the analyzer operate for approx. 8 hours.
Approx 950g

Mega Speed Measurement

You can test measurement of high-speed communications up to 1.544Mbps (half duplex) or 1.000Mbps. Using high precision DPLL technology for open baud rate support, transmission and reception speed can be separately set to an effective 4 digits. < Baud rate setting display >
Baud rate setting display

Multi-Protocol Support

Multi-Protocol Support is Provided as a standard Feature
LE-3200-E comes standard with measurement interface for RS-232C (V.24) and RS-422/485 (RS-530) standards. X.21, RS-449 and V.35 require only a dedicated cable.
Multi-Protocol Support Multi-Protocol Support
< Protocol setup >
Protocol setup
< Interface setup >
Interface setup
Expansion Kit Broadens the Range of Use
Protocols of differing hardware specifications are supported by simply changing the measurement board.
Replace expansion boards
Simply pull out the interface board from the measurement unit and replace it with an expansion board for another protocol.
Replacement TTL, I2C Expansion Kit Infrared Communications Expansion Kit
TTL, I2C Expansion Kit OP-SB5F Infrared Communications Expansion Kit  OP-SB6F
CAN Communications
Expansion Kit
CAN/LIN Communications Expansion Kit
CAN Communications Expansion Kit OP-SB7F CAN/LIN Communications Expansion Kit OP-SB7FX

Auto Save... Long Recording Time

Built-in memory card
(PC card) interface
Memory card 2GB
Built-in memory card MC-2GCF
HDD Card MC-2GCF
The auto save function makes it possible to continuously save up to 2Gbyte(*). It automatically saves the content of the capture memory on a high capacity compact flash (CF) card. And it continuously saves data into the measurement log of a user-specified file size, using ring recording as long as the card has space. In addition, it is useful for identifying rare communication failures of the unknown cause.


*Before using MC-2GCF
If you are using LE-3200-E with the version such as 1.09 or before, please update to 1.10 or later.
Firmware is available for downloading from the support page.
Target Line Speed
(bps)
Continuous Recording Time Reference
Main Monitor Only When Using
MC-512CF
When Using
MC-1GCF
When Using
MC-2GCF
9600 Approx. 40min. Approx. 30hrs. Approx. 60hrs. Approx. 120hrs.
115.2K Approx. 200sec. Approx. 2.5hrs. Approx. 5hrs. Approx. 10hrs.
1M Approx. 26sec. Approx. 19min. Approx. 38min. Approx. 76min.
*When 1 kilobyte data is repeatedly transmitted by full duplex with intervals of 1m second idle time for each. Both transmission and reception data consume 4 byte of memory for each capture.

Logic Analyzer Display

Analyzes timing trouble in bits
Communication line timing is analyzed and displayed as a logic analyzer display to a time resolution of max. 50ns. This function helps to identify the problems with hardware. Also, you can use it as educational use, comparing documents for communications protocol.
< Logic analyzer display >
Logic analyzer display
Measurement between the cursors at 12 micro sec.

PC Link

Use measurement data on PC via dedicated application.
Manipulate measurement data on your own PC. By connecting the serial cable, the measurement log is recorded to HDD of a PC (*1). Moreover, the record log on a memory card are converted to the text format on a PC (*2) to use.
*1:Requires an option, PC software (LE-PC300G).
*2:Includes software with the analyzer for converting saved data on the memory card to the text format and capturing the text output (printing data) from the analyzer.
PC Link SoftwarePC Link SoftwarePC Link Software
(*) LE-3200-E

Online Monitoring

The online monitor feature records communications data in the capture memory and provides an easy-to-understand display for the type of protocol, without affecting the communication line. LINE EYE protocol analyzers record not only communications data but the time (time stamp) of transmission and reception as well as idle time. Therefore, failure time and timeout status can be checked. In addition, it is available for the trigger function which detects specific communication conditions and for the recording function to select the specific address frames which helps you to effectively use the memory.
Depending on the test, you can select bit transfer sequence and polarity, as well as modulation format from NRZ, NRZI, FMO, FM1 and 4PPM. The feature allows to support effective analysis by omitting SYN codes and using SDLC/HDLC address filter.
< Time stamp/idle time display >
Time stamp/idle time display
< IrDA translation display >
IrDA translation display
< PPP translate display >
PPP translate display
< Timing data display >
Timing data display
Line State LED
Line State LEDs
Example of connection for online monitoring
Example of connection for online monitoring
Time Stamp Measurement
Record the data and the time of transmission / reception for data frames. ASYNC cannot recognize the length of frame. Thus, our analyzers decide the frame end when it find the specific character, or when it pass the specific time of being non-communication. Time stamp will be displayed in above 2 situations.
* Specifies OFF, day / hour / minute, hour / minute / second, or minute / second / 10msec.
Non-communication state which works as the frame end detection time of ASYNC and Burst communications can be set from 1 to 100ms.
* The example indicates that received time of last data was 20min. 56.37sec(M / S / 10mS setting)
* If there are some frame with same time stamp, it is because the analyzer measured the frames in 10ms.
Idle Time Measurement
The amount of idle time between communications frames can be measured.
* Specifies OFF or a resolution of 100msec., 10msec. or 1msec.
* The example indicates there was an idle time of 7 to 7.9ms(1mS setting)
Trigger Function
The trigger feature allows you to specify a communications event as the trigger condition and have measurement operations executed automatically when that condition is specified. Up to four pairs of conditions and operations can be set, which is helpful towards identifying frequent intermittent faults that occurs with communications systems. And, the operation of a trigger condition can be specified as the condition for another trigger, making it possible to analyze complicated operations based on sequential trigger.
Trigger Event Communications error (individual error type can be specified), communications data string of max. 8 characters (DON'T CARE and bit mask cab also be specified), logic status of interface signal line, matching to timer / counter value, idle time beyond a specified duration, external trigger input
Trigger Operation Buzzer sounding, measurement recording stop (offset can be specified), save monitor data on memory cards (the range can be specified), timer control (start, stop, and restart), counter control (count and clear), trigger condition activation, transmission of specified text string (in MANUAL simulation)
< Trigger setup summary display >
Trigger setup summary display
< Trigger condition setup >
Trigger condition setup
< Trigger action setup >
Trigger action setup

Statistical Analysis Measurement
< Statistically analyzed data >
Statistically analyzed data
Statistic can be compiled for transmission and reception data sets, frames and the number of established trigger events, and subsequently displayed as a graph (Unit: 1 to 240min.). This helps to understand communications traffic and error frequency for a specific time period.

Monitor Condition Auto Setting
Communications data received is analyzed. And the following basic measurement conditions are automatically set based on the findings: communication speed, the character framing, data code, SYNC character, BCC/FCS, etc.
*Auto setting may be disabled when there is little data on the communication line or when data included a lot errors.
*Maximum speed for auto setting is 115.2kbps.
< Search display >
Monitor condition auto setting - Search display
< Determination display >
Monitor condition auto setting - Determination display

Delay Time Measurement
Enables to measure min. / max. / average time of until some signal state is changed to another state and the number of its times. It is useful for delay analysis of control line RTS-CTS and so on. < Delay time measurement display >
Delay time measurement display

Simulations

With the simulation feature, LINE EYE protocol analyzers act as the counterpart to the target device and perform transmission and reception tests according to protocol. Even in the early stages of development when matching devices are not available, tests can be run at near to actual operatingstatus. After performing the step-by-step check of the communications protocol in the analyzer's ownoriginal MANUAL mode, the developer can create a simple program to branch conditions using the menu selection and test more complicated communications protocols.
Example of connection for simulation
Example of connection for simulation
Communications speed can be freely set. Therefore, margins can be evaluated by intentionally shifting communications speed, and error response processing can be checked using test data that mixes in data with parity errors.

< Control lines and data transmission timing >
Control lines and data transmission timing

MANUAL Mode
The manual mode allows you to send data registered in the transmission table which corresponds to the "0" to the "F" keys. Data can be sent with the press of a key. While checking replies from a unit under development with the analyzer's monitoring feature, you can easily and simply test the communications process. You can also send fixed data by registering it under a key combination of the SHIFT and "0" to the "D" keys, as well as turn RS and ER signal lines on/off with the SHIFT and the "E"/"F" key combinations. < Transmission table setup display >
Transmission table setup display

FLOW Mode
Flow control can be simulated on the transmission and reception-lines using X-on/off flow control or the control line handshake. In the transmission mode, up to sixteen cycles of data from transmission start until a generated interrupt request can be displayed. In the reception mode, you can set the number of received data cycles until a transmission interrupt request is generated, as well as the time until the transmission resume request is generated. < Flow mode setup display >
Flow mode setup display

ECHO Mode
In the echo mode, the analyzer internally return received data in units of bits, bytes or frames (character string). It is used to test display terminals and communications terminals, and to set loop-back points for the BERT feature.
POLLING Mode
The polling mode simulates the slave and master units in multidrop (1:N connection) polling protocols. In the slave mode, the analyzer check the number of received frames that are assigned their address and whether errors occur or not, replying with user-set data. In the master mode, they send polling messages to thirty two slave units, and check and display replies from each slave. < Polling setup >
Polling setup

BUFFER Mode
In the buffer mode, you can select transmission or reception, and send transmitted and received data that has been captured in the buffer using the unit's monitoring capabilities, as simulation data without requiring further manipulation. This mode is effective in conducting reproducibility tests using the same data as that monitored under actual communications conditions. < Buffer data reproduction setup >
Buffer data reproduction setup

PROGRAM Mode
By creating a purpose-specific command program, the communications protocol can be flexibly simulated alongside condition monitoring. The program is created using the menu selection, so it is easy to master. < Program display >
Program display
Command Operation
SEND CHR Sends max. 8 data sets.
SEND REG Sends data registered in transmission table under specified REG No.
WAIT CHR Waits until receiving specified data (max. 8 data sets).
WAIT FRM Waits until receiving 1 frame.
WAIT TM Waits for specified amount of time.
GOTO L Jumps to specified label No.
CALL L Jumps to subroutine of specified label No.
IF CHR L Branched if specified data in reception buffer.
IF LN = L Branches if interface line is specified logic.
SET REG Sets or increases/decreases value of specified REG No.
SET TM Controls specified timer and sets to specified value.
INT TRG 0 L Interrupts specified label when trigger 0 condition is satisfied.

BERT(Bit Error Rate Test)

BERT support enables you to measure transmission quality of communications lines by a loop-back or interactive connection. It is possible to measure evaluation parameters (bit error count, block error count) conforming to ITU-T G.821 Notification, hence enabling bit error rate evaluations and fault point identification. Elaborate test patterns and functions such as bit error forced interrupt are comparable to dedicated equipment.
< BERT display >
BERT display
This function allows to analyze in the ASYNC or SYNC mode by selecting test mode (CONTINUE, R-BIT, RUN TIME and Repeat) and test patterns.

< BERT measurement display >
BERT measurement display
Starting measurement updates the measured results of line quality in real time. With REPEAT mode, you can know the bit error rate of every specific time on a communication circuit.
 
Example connection for BERT
Example connection for BERT
BERT Measurement Content
Communication mode Can select the ASYNC or SYNC mode.
Test Pattern
CONTINUE Continuous measurement
R-BIT Continues the test until the number of effective
received bits exceeds the designated value.
RUN TIME Continues the test until the measurement time
exceeds the designated value.
Pattern 26-1, 29-1, 211-1, MARK, SPACE, ALT, DBL-ALT, 1in4, 1in8, 1in16, 3in24
Measured Data
Savail Available measurement in seconds 0 to 9999999
R-Bit Effective bits received 0 to 9999999 to 9.99E9
E-bit Error bit count 0 to 9999999 to 9.99E9
Bit-ER Bit error rate 0 to 9.99E-9 to 1
E-Sec Error in seconds 0 to 9999
Loss SYNC loss count 0 to 9999
R-Blk Block error count 0 to 9999999 to 9.99E9
E-Blk Block error rate 0 to 9999999 to 9.99E9
Blk-ER Effective blocks received 0 to 9.99E-9 to 1
%E.F.S Normal operation rate 0.000 to 100.000%

Menu-Based Simple Operation

Anyone can easily operate the analyzer owing to the easy menu selection system handed down from earlier models. < Top menu display >
Top menu display

Offline Analysis Data Searches
Measurement data display can be freely scrolled and paged. A powerful search feature allows you to locate specific data and perform counting.
Search Key Communications error (individual error type can be specified), communications data string of max. 8 characters (DON'T CARE and bit mask can also be specified), idle time beyond a specified duration, specific time stamp (DON'T CARE can also be specified), trigger matching data
Search Operation Find and display, counting
< Search key setting >
Search key setting
Using "DON'T CARE (*)," you can search for time stamp data from 10:30:00 to 10:39:59 as in this example.

PC Compatible File Management Specification
Test conditions and results such as measured data can be saved on microdrives, compact flash cards and other memory cards in the file management format compatible with your PC. Of course, files can be interchangeably used between models such as LE-7200-E, LE-3200-E, LE-2200-E, and LE-1200-E. Therefore, measurement data can be saved on-site with LE-3200-E, and analyzed or manipulated in greater detail using LE-7200-E back in the office.
* Not available to use memory cards for LE-1100-E.
This function allows you to check files saved into memory cards by type, name, size, and/or date. < File operation display >
File operation display
File type Measurement data (.DT), Trigger save data (TG SAVEnn. DT),
Auto save data (#nnnnnnn. DDT), Measurement Conditions (.SU), Transmission data for simulation (.ST), Simulation Program (.SP)
File operation Displaying normal file or designated type of files, Save, Load, Deletion, Format
When there are so many files saved in a memory card, this function enables you to specify the types of files you wish to display on the screen.

This image shows the setup to display the trigger save data only from Feb. 14, 2005 at 12:00 to Feb. 14, 2005 at 20:59.
< File filter setup >
File filter setup

Updating to Firmware
You can download the latest version of software from our website to take advantage of the >Download

Auto RUN/STOP for Unmanned Measurement
By setting time and a data of measurement start and end, measurement can be done automatically during the specified time period. < Auto run display >
Auto run display

Various Print Formats
Measurement data of a user-specified range can be printed out continuously from any printer. And, with a dedicated printer, you can print hard copy images of computer displays and continuous images of logic analyzer waveforms. < Print out setup>
Print out setup
Printing Sample image sample1 sample2 sample3 sample4