LA4136E Logic Analyzer
LA4000 Logic Analyzer
• PC-based
• 136 channels
• USB 3.0 interface, 12V power adaptor
• 2.4GHz Timing Analysis / 300MHz State Analysis
• 32Gb Memory
• Active Probe
• Logic, State and Protocol triggers
• Stackable with a DSO to form an MSO
The LA4000 series excels in both timing analysis and state analysis compared to the LA3000+. The LA4000 model achieves a frequency of 4 GHz in timing analysis and an impressive 400 MHz in state analysis, making it an ideal choice for logic analysis in high-speed data transmission, communication protocol analysis, and handling complex signal structures.
The LA4136E logic analyzer is a versatile tool, offering comprehensive support with its 136 channels. It addresses various application scenarios, from analyzing signal structures to decoding and debugging communication protocol buses. The LA4136E model, in particular, stands out for its robust performance, making it an ideal choice for tasks involving ADC and FPGA chip development and debugging.
The LA4000 series also supports stacking measurements with various oscilloscopes through the MCX to BNC cable, facilitating seamless connections with oscilloscopes from other brands such as Keysight, R&S, Tektronix, Acute TravelScope, and more.
Whether in applications requiring high-speed timing analysis or dealing with complex state analysis, the LA4000 series proves to be a reliable partner, offering robust support and versatile applications for your measurement tasks.
Software Window:
MIPI I3C (LA Mode) :
MIPI I3C (PA Mode):
Logic Analyzer (LA) Mode
- Capture digital waveforms and support bus decodes. Able to stack with a DSO to form as an MSO.
- Provides multiple storage modes, users could select to have long time recording or precision acquisition.
Long Time Record: Transitional Storage VS Compressed Storage
For signal capture and analysis, usually require to record the signal for a long time. If the data is stored in a compressed way, it will cause your software to lag or even stop functioning when decompressing the data after it is sent back to the computer. Because PC memory size might insufficient for decompressed data size. To satisfy the requirement of smooth software operation and long-term recording without missing any data, the storage method adopted by the Acute analyzer is transitional storage rather than compression. After returning to the PC software, it doesn”t need to do the decompression. The decoded results can be displayed while the analysis is finished.
Parallel Clause Triggers
16-States parallel IF Clause settings for 128/64 channel value compare combined with AND/OR logic condition and 4 Timer/Counter conditions.
Flow chart bus triggers
Power trigger for serial bus, 8-states flow chart setting with Counter/Timer
Detail parameters for each states
Stack With Other Vendors of Oscilloscope
Add Notes & Pictures in Waveform
Protocol Analyzer (PA) Mode
It is hardware decoding, may log protocol data very long time if without waveforms. Application timing: Preliminary protocol debug.
Protocol Analyzer
Show real-time protocol data. Application timing: massive protocol data with some idles in between.
Protocol Logger
Like data logger, save massive data into SSD hard drive. Application timing: massive protocol data.
Protocol Monitor
Like dash cameras, record protocol data by the device’s memory only. Application timing: trigger event only happens in very long time.
| LA Spec. | |
|---|---|
| Power Source | 12V Power adapter |
| Static Power Consumption | 30W |
| Max Power Consumption | 75W |
| Hardware Interface | USB 3.0 |
| Timing Analysis (Asynchronous, Max. Sample Rate) | 4GHz |
| State Clock Rate (Synchronous, External Clock) | 400MHz |
| Storage | Conventional Timing, Transitional Timing |
| Channels | 136 |
| Total Memory | 32Gb |
| Timing Analysis | Available Chs (Conventional / Transitional Timing) – Memory per Ch |
| 4GHz Timing [Available Chs] – Memory per Ch | [16 / 16] – 2Gb |
| 2GHz Timing [Available Chs] – Memory per Ch | [32 / 32] – 1Gb |
| 1GHz Timing [Available Chs] – Memory per Ch | [64 / 64] – 500Mb |
| 500MHz Timing [Available Chs] – Memory per Ch | [128 / 128] – 250Mb |
| 250MHz Timing [Available Chs] – Memory per Ch | [128 / 128] – 250Mb |
| Channel to channel skew | 250 ps |
| Input channels | N/A |
| Input impedance | ~ 55KΩ || <2pF to 1Vdc |
| Max. (Non-destructive) | ±40V |
| Input operation | ±15V |
| Input sensitivity | ~300mV |
| Threshold group | N/A |
| Threshold range | ±15V |
| Threshold resolution | 10mV |
| Threshold accuracy | ±100mV + 5% * Vth |
| Trigger resolution | 250 ps |
| Trigger types | Channel, Pattern, Single / Multi Level, Parallel Clause, Width, Time-out, External |
| Protocol Trigger | BiSS-C, CAN2.0B/CAN FD, DALI, DP_Aux, eMMC 4.5, eSPI, HID over I2C, I2C, I2S, LIN2.2, LPC, MDIO, MII, Mini/Micro LED, MIPI I3C 1.1, MIPI RFFE 3, MIPI SPMI 2, Modbus, NAND Flash, PMBus, Profibus, PWM, RGMII, RMII, SD 3.0 (SDIO 2.0), SENT, Serial Flash (SPI NAND), SMBus, SPI, SVI2, SVID, UART (RS232), USB PD 3, USB1.1 |
| Protocol Analyzer | BiSS-C, CAN2.0B/CAN FD, DALI, DP_Aux, eSPI, HID over I2C, I2C, I2S, LIN2.2, MDIO, MII, MIPI I3C 1.1, MIPI RFFE 3, Modbus, PMBus, Profibus, PWM, RGMII, RMII, SMBus, SPI, SVID, UART (RS232), USB PD 3, USB1.1 |