MLT Advance

Inheriting all the features from conventional MLT model, and yet many more new functions are now onboard.

Many new functions such as error frame transmission and CAN-FD application are added while inheriting and improving all the features from conventional MLT models. Special software “MLT Advan Navigator” is included.

[Supported protocol]
CAN-FD/CAN,LIN,CXPI and more…

New functions

Video Manual

The Advanced version of MLT PX-10

This product consists of a hardware (MLT Advan Hardware) and a software (MLT Advan Navigator). The MLT Advan Hardware supports various protocols to serve various purposes and uses.

Product details

MLT Advan Navigator

is the software designed for MLT Advance, controls the MLT Advan Hardware and generates log files. Its filtering and database functions allow monitoring and analyzing data communication.

Functions

MLT Advan Hardware

Expanding the number of port input/output from previous MLT hardware, 8ch to 16ch. It is capable to record timestamps nanosecond accuracy.

Price list

※ The image shows an example of MLT Advan Hardware. Actual product may vary depends on models.

Expanding its function

CAN-FD application

CAN-FD is now supported. CAN-FD/CAN models can handle both CAN-FD and conventional CAN protocols.

Expanding supported protocols

Supported protocols and maximum number of channels
CAN-FD/CAN: 10ch, LIN: 10ch, I2C: 2ch, IE-Bus: 2ch, ISO: 2ch, CXPI: 4ch

Added error frame sending function

Error frame sending for CAN-FD/CAN and LIN protocols are available (※1).
Note: Error frames which can be sent differ between CAN-FD/CAN and LIN.
More information

Handling high load transactions

Achieving 100% of bus loading at up to 2Mbps in CAN-FD/CAN communication,
and handling high load test condition which takes almost 100% of bus loading at LIN and CXPI communication.

Expanding number of Programmed sending lines

The number of Programmed sending lines has increased from 10,000 to maximum of 1,000,000 (※2) whilst the transmission
resolution improved from 1ms to 100μs. Regeneration of transmission frames can be greatly intensified.
Programmed sending is now available with LIN and CXPI (※3) in addition to CAN-FD/CAN

Increased port performance

Expanding the number of port input/output from previous MLT hardware, 8ch to 16ch.
It can log, e.g. 120Hz: 0～100% Duty waveform for a long time with 10ns resolution.

Improved analog input accuracy

Measurement voltage range: 0～20V, Minimum sampling (1ms), Voltage accuracy within ±0.2V (actual: within ±0.1V)
It can realize such an environment that up to 8ch of voltage waveforms can be logged for 1000hrs continuously.

Strengthening hard increment function (CAN-FD/CAN)

Increment can be set at 4 locations within a frame (※1).

Improving time stamp accuracy

Improving the accuracy of quartz oscillator for time stamp from ±100ppm to ±25ppm.

MLT Advance Technology

By employing DMA that doesn’t required OS, and taking advantage of interrupt handling which can finish processing
in a short period of time, the processing speed of the system has improved substantially.
Communication protocols as well as time stamps are processed at FPGA.

※1.To be able to use those functions, a separately sold optional software, Multi Protocol Simulator is needed.
※2.The maximum number of Programmed sending lines will vary depends on conditions which the hardware is used in.
※3.The function is added in such way that registered response is sent by looking at header information, then the value of the response is overwritten. However, when a device that is being evaluated is operating as a master, integration errors may occur due to a small difference in header schedule time which is caused by clock jitter of the device at logging and programmed sending. In such cases, MLT Advan can be customized to function properly such test environment. Please consult us for advice.

MLT Advan Navigator Operation screen & Functions

General purpose software realizing consistent operability that creates multifunctional integrated testing environment

Master Log Channel displays all the frames.

Items to be shown on the display can be set at “Frame Dispaly.” Other items such as “date”, “time”, “microsecond”, “filter label” and “database” can also be displayed. Each item can also be punctuated by comma.

1	Frame ID
2	Relative time
3	Incoming/Outgoing
4	Protocol
5	Channel
6	Status
7	Frame type
8	ID / DLC / Data etc.

Logs can be filtered for display
(The example above shows only CAN-FD protocol in the display)

CAN-FD frame types
4	CAN-FD standard frame (flexible bit rate)
5	CAN-FD extended frame (flexible bit rate)
6	CAN-FD standard frame (single bit rate)
7	CAN-FD extended frame (single bit rate)
0	CAN standard frame (data frame)
1	CAN extended frame (data frame)
2	CAN standard frame (remote frame)
3	CAN extended frame (remote frame)

Error frame sending fuction

CAN error sending function
No.	Item	Description	Note
1	Error response	Output an error flag (at EOF) after ACK when receiving the frame	Transmitter side detects EOF FORM error
2	CRC error(1)	Reverse the CRC end bit (receiver side becomes CRC error)	Receiver side detects CRC error
3	CRC error(2)	Reverse the Stuff Count end bit	Receiver side detects CRC error Valid only with CAN-FD
4	Forced correct sending	Forcibly output ACK at sending (correct the frame even without a receiving node)	Invalid at monitoring mode
5	Forced error sending	Output an error flag after ACK when receiving the frame	Receiver side detects EOF FORM error
6	stuff error(1)	Normal stuff bit error sending (transmit without reversing when inserting stuff)	This error is not available for a frame that stuff which becomes stuff error at receiving side does not occur
7	stuff error(2)	Fixed stuff bit error sending (transmit without reversing)	Receiver side detects EOF FORM error Valid only with CAN-FD
8	Error value sending(1)	RRS error sending (transmit “0”)	Valid only with expanded frames
9	Error value sending(2)	RRS error sending (transmit “1”)	Valid only with CAN-FD
10	Error value sending (3)	r0/res error sending (transmit “1”)
11	Synchronized sending	SOF detection synchronized sending (synchronize a tool sending with other node SOF)	ID arbitration check function (Sending time out: 60sec)

CAN standard frame example

CAN-FD standard frame example

LIN error sending function
No.	Item	Description	Note
1	Response data length error	Make response data length wrong	Available up to 9byte
2	Parity setting	Send parity with error value (arbitrary value)
3	Inter-byte space setting	Set the inter-byte space within 0 ～ 255Tbit	Adjust inter-byte space of an arbitrary location of the frame
4	Sync field	Fixed sending Sync field pattern [default=0x55]
5	Header frame bit destruction	Sync field data destruction (output 8bit “0”) Sync field stop bit destruction ID field data destruction (output 8bit “0”) ID field stop bit destruction	ID can be selected only at ID field stop bit destruction
6	Response frame bit destruction	Response space destruction Data field destruction (output 8bit “0”) Data field stop bit destruction Inter-byte space destruction	Location of the destruction and destruction ID can be selected except for Response space destruction

LIN standard frame example

Contents of product

MLT Advan Hardware: 1 unit

MLT Advance Installation CD: 1 piece

AC adapter: 1 piece

USB cable: 1 cable

Network connection cable (D-sub 9pin): As required (number varies depends on models)

Analog input, port input/output cable (MIL connector): 1 piece

Software operation environment

PC / OS: Windows 10 Core i5 or higher (Core i7 or i9 higher is recommended.)

Main memory: 4GB or more (8GB or more is recommended.)

Display: Resolution of 1366×768 is recommended.

HDD free space: 10GB or more (SSD is recommended.)

Device: USB port, CD-ROM drive, Pointing device(mouse, touchpad etc.)

Others: PDF browsing software

Hardware Specifications

External input: port inputs(16 channels) / analog inputs(8 channels)

External output: port outputs(16 channels)

Input voltage: DC12V

Current consumption: 125mA(typ)

AC adaptor: input: AC 100 – 240V, 50 – 60Hz, 0.3A / Output: DC 12V, 1.0A

Operating temperature: 5°C – 40°C (no condensation)

Storage temperature: -40°C – 65°C

Outer dimensions: Approx. 206mm(width) × 38mm(height) × 146mm(depth)

Main body weight: Approx.450g

Licensing Policy

The license for this product is one for each MLT Advan Hardware.
The license becomes effective when the person responsible for managing the MLT Advan hardware registers it as a user, and is eligible for user support.
The MLT Advan Navigator of this product does not have a lock mechanism, so it can be installed on multiple PCs.
If you want to use MLT Advance with multiple people, you can use it by registering as a user with the consent of the person in charge of management.
In this case, user support is assumed to be provided by the person in charge of administration.

Price list

Model code description

398,000JPY
Model	Protocol and Number of channels
5CF2	CAN FD / CAN	2
5CF1L1	CAN FD / CAN	1	LIN	1
5CF1IS1	CAN FD / CAN	1	ISO 14230	1
5L1IE1	LIN	1	IE Bus	1
5CF1IC1	CAN FD / CAN	1	I2C	1
5CF1CX1	CAN FD / CAN	1	CXPI	1
5CF1SD2	CAN FD / CAN	1	SRASYN	2
5CF1SP1	CAN FD / CAN	1	SPI	1
5L2	LIN	2
5L1IE1	LIN	1	IE Bus	1
5L1CX1	LIN	1	CXPI	1
5L1SD2	LIN	1	SRASYN	2
5L1SP1	LIN	1	SPI	1
5IE2	IE Bus	2
5IE1SD2	IE Bus	1	SRASYN	2
5IC2	I2C	2
5IC1CX1	I2C	1	CXPI	1
5IC1SP1	I2C	1	SPI	1
5CX2	CXPI	2
5CX1SD2	CXPI	1	SRASYN	2
5SD2SP1	SRASYN	2	SPI	1
5SP2	SPI	2

497,000JPY
Model	Protocol and Number of channels
5CF3	CAN FD / CAN	3
5CF2L1	CAN FD / CAN	2	LIN	1
5CF2IS1	CAN FD / CAN	2	ISO 14230	1
5CF2IC1	CAN FD / CAN	2	I2C	1
5CF2SD2	CAN FD / CAN	2	SRASYN	2
5CF1L2	CAN FD / CAN	1	LIN	2
5CF1IC2	CAN FD / CAN	1	I2C	2
5CF1L1IS1	CAN FD / CAN	1	LIN	1	ISO 14230	1
5CF1L1IC1	CAN FD / CAN	1	LIN	1	I2C	1
5CF1L1CX1	CAN FD / CAN	1	LIN	1	CXPI	1
5CF1SD4	CAN FD / CAN	1	SRASYN	4
5L3	LIN	3
5IC2CX1	I2C	2	CXPI	1

596,000JPY
Model	Protocol and Number of channels
5CF4	CAN FD / CAN	4
5CF2L1IS1	CAN FD / CAN	2	LIN	1	ISO 14230	1
5CF2L1IC1	CAN FD / CAN	2	LIN	1	I2C	1
5CF2L1CX1	CAN FD / CAN	2	LIN	1	CXPI	1
5CF2IC2	CAN FD / CAN	2	I2C	2
5CF2CX2	CAN FD / CAN	2	CXPI	2
5CF1L1IC2	CAN FD / CAN	1	LIN	1	I2C	2
5L2CX2	LIN	2	CXPI	2