Voyager M3x

Voyager M3x

The Voyager M3x is Teledyne LeCroy's 7th generation USB analyzer platform that provides 100% accurate protocol capture of both USB 2.0 and 3.0 at data rates up to 5 Gb/s. The industry's most widely used USB 3.0 test platform features the de facto standard CATC Trace display and unmatched analysis capabilities to help pinpoint problems at every layer of the protocol.
Voyager M310P The Voyager M310P is Teledyne LeCroy's flagship USB protocol verification system designed for USB 2.0, USB 3.1, Type-C, and USB Power Delivery. Offering the industry's highest fidelity probe design, flexible traffic generation, and a range of turnkey Compliance packages, the Voyager M310P is the most complete platform for cradle-to-grave USB design verification.
Voyager M3x The Voyager M310C is Teledyne LeCroy’s USB protocol verification system designed for the latest evolution of universal serial bus, USB Type-C, and includes support for USB Power Delivery. Leveraging Teledyne LeCroy’s extensive expertise in high-speed serial data analysis, the Voyager M310C provides traffic generation and recording of USB 3.1, 3.0 and 2.0 with data rates up to 10 Gb/s.
Advisor T3 Teledyne LeCroy’s Advisor T3 is an ultra portable SuperSpeed USB analyzer that delivers market leading accuracy at an extraordinary price. Designed to put precision USB protocol test tools in the hands of every engineer, the Advisor includes all the essential features for SuperSpeed USB debug.
Mercury T2C The Teledyne LeCroy Mercury T2C adds USB Type-C and Power Delivery 2.0 & 3.0 support to the industry's smallest and most affordable hardware-based USB 2.0 protocol analyzer. The Mercury T2C combines the de-facto standard CATC Trace display, USB class decoding and Power Delivery 2.0 & 3.0 support in an analyzer that fits in a shirt pocket.
Mercury T2 The Mercury T2 is the industry's smallest, most affordable hardware-based USB 2.0 protocol analyzer that combines the defacto standard CATC Trace display with powerful analysis features. The pocket-sized Mercury T2 is bus powered and is controlled using any Windows PC. With comprehensive triggering, the Mercury T2 provides much of the same lab quality protocol analysis capabilities offered in Teledyne LeCroy's top-of-the-line USB analyzers.

Teledyne LeCroy's legendary Voyager USB 3.0 analyzer platform provides the industry's most accurate and reliable capture of USB 2.0 and 3.0 protocol for fast debug, analysis and problem solving.

This multifunction validation platform is available with an integrated exerciser capable of both 2.0 and 3.0 host and device emulation. In addition to compliance verification and error injection, the exerciser can emulate a USB endpoint and intelligently respond to enumeration requests.

Now upgraded with SuperSpeed 3.0 as well as Gigabit Ethernet data upload ports, the Voyager system features countless innovations in data analysis to help reduce time-to-market for USB systems and software. From fault recovery to performance optimization, the Voyager system helps assure that USB devices deliver excellent compatibility and throughput.

Voyager USB 3.0 Introduction series of video demos
  Title Time
Chapter 1: Recording & Triggering 8:01
Chapter 2: Part 1: Advanced Triggering 6:28
Chapter 2: Part 2: Advanced Triggering 6:22
Chapter 3: Troubleshooting Connection Issues 8:09
Chapter 4: Introduction Packet & Header Display Options 8:24
Chapter 5: Compliance Suite - Part 1 8:27
Chapter 6: Compliance Suite - Part 2 9:39

Unmatched Accuracy

The Voyager M3x analyzer front-end incorporates the latest Teledyne LeCroy probing technology to provide fast-locking and uncompromised accuracy for USB 3.0 recording. SuperSpeed USB devices utilize hardware based power management with devices frequently entering power suspend mode. While in-line, the Voyager system will detect and seamlessly recover from electrical idle while accurately showing all bus and power state transitions time-stamped within the display.

Flexible hardware

The front end of the Voyager analyzer features standard USB 3.0 connectors that support USB 2.0 and 3.0 signals to provide loss-less capture of traffic from both links simultaneously. Concurrent high-speed and SuperSpeed recording allows end-to-end viewing of data transfers across a USB 3.0 hub. The system can operate as a USB 2.0/3.0 analyzer; and is also available in a 2.0-only configuration that is upgradeable to 3.0.

The Voyager M3x platform includes 4GB of recording memory plus USB 3.0 and Gbe links for uploading recorded traffic to the host PC. In spooled recording mode, the Voyager provides continuous, real-time display of captured traffic allowing fast access and extended recording sessions. 

The heart of the Voyager analyzer is Teledyne LeCroy's revolutionary BusEngine™ technology. This state-of-the-art protocol processing core incorporates a real-time recording engine and configurable tools to selectively monitor and record SuperSpeed USB traffic. Field upgradeable firmware allows the BusEngine to evolve and support new features or future changes to the USB specification.

6th Generation Analysis Software

The Voyager utilizes the legendary CATC Trace - the industry's de facto standard for USB 2.0 protocol analysis. The trace viewer software uses colors and patterns to train the eye to understand information faster. When recording mixed traffic upstream from a SuperSpeed hub, Legacy 2.0 and 3.0 packets are labeled and interleaved in a single display. Each event is shown on a separate row with every field labeled and color coded.. Traffic from the logical 2.0 & 3.0 channels can be individually filtered, searched or exported from the trace. The USB Transfer level can be expanded and collapsed to show the packet layer including all link management packets (LMPs) and flow control symbols.

Raw Debugging Power

The Voyager is the only analyzer on the market that captures every transition on the 5Gbps USB link including idles, inter-packet symbols and corrupt 10-bit symbols. The Link Tracker provides a chronological upstream / downstream display of all ordered sets with timing resolution of 2ns. Designed to assist with low-level debugging, all symbols including training sequences can be displayed in raw 10-bit, 8-bit, scrambled, and unscrambled Hex format. Symbol-to-symbol timing measurements are possible with a single click.

Key Features
  • CATC Trace Analysis Software System - Expand / Collapse transfer layer for faster interpretation of USB traffic
  • Capture / Analyze 3.0 & 2.0 traffic concurrently - Record 2.0 and SuperSpeed data path to test & debug USB 3.0 host & hub operation
  • Integrated 3.0 analyzer / exerciser (single box) - Multifunction system with 3.0 and 2.0 device or host traffic generation
  • 4GB Recording Capacity - Capture long recording sessions for analysis and problem solving
  • Raw bit Recording / 10-bit error detection - view and correlate low-level 10-bit symbols to higher-level packet structures
  • Detects over 40 Link & Protocol errors - Critical link and timing errors are automatically detected and flagged in the trace
  • 2ns timing resolution - extremely accurate timing resolution allows precise measurement of link layer handshaking
  • External Trigger In / Out - Use the Teledyne LeCroy Voyager to identify any packet and toggle a scope or logic analyzer (via SMA connectors)
  • Fully supports SSC and Data scrambling - Fast Locking and Accurate capture on 5Gbps signals
  • Hardware Triggering - Trigger on both 2.0 or 3.0 protocol events to isolate important traffic, specific errors or data patterns
  • Comprehensive Device Decoding - SCSI Mass Storage, 3.0 Hub, PTP/Still Image, Printer, PictBridge, Media Transfer Protocol (MTP), and all popular USB device classes
  • Hardware Filtering - Automatically exclude non-essential and redundant symbols including Idles, TS1, TS2, SKPs, and LFPS sequences
  • Intelligent Reporting - Automatically report event metrics and flag over 20 common USB 3.0 protocol errors
  • Sophisticated Viewing - View TLP messages and headers, plus logical transaction and transfer layers of the USB protocol
  • Gbe or USB 3.0 Upload - Sustained transfer rates of 600Mbps over Gbe provide instant access to captured data
  • Loopback and Compliance Mode - Exerciser system provides special console for initiating loopback and compliance mode
  • Link Training and Timing Views - LTSSM flow diagram and chronological views linked to trace display
  • Real Time Statistics - RTS window shows throughput, link statistics and packet error rates graphically, in real time
  • Compliance Test option - Voyager is a certified Link Verification System (LVS) for performing Link and Hub compliance testing
  • Power Tracker™ Option - Graphs Power & Current draw for VBus devices synchronized to the trace data
  • 12 Month Hardware Warranty - Protect your investment with industry leading support and warranty

Intelligent Triggering

The Voyager provides hardware triggering to pinpoint protocol events of interest. Trigger events can be specified at the lowest levels including bus states and ordered sets (Link up, SKP, etc...) or header fields including route strings or packet types (ACK, Data, etc...). Voyager's graphical drag-and-drop interface makes setup easy. Users can define trigger logic that monitors multiple sequential event trigger scenarios that include SCSI operations, counters, loops and timers all within a multi-level sequence.

Real Time Filtering

SuperSpeed data transfers at 5 Gb/s can fill memory buffers in an instant making event filtering critical for efficient debug. The Voyager analyzer can filter unwanted traffic from the buffer in real-time by discarding redundant patterns such as SKPs, idles, and training sequences. Filtering logic can also include transaction layer packets with added criteria like direction or port number.

Error Detection

The Teledyne LeCroy Voyager can detect and flag real protocol errors including logical link and timing errors. At the lower layers, training sequences and link commands are automatically verified for proper formatting. The Spec View displays header fields in hex or binary and also marks errors in red.

Integrated Exerciser Option

A comprehensive exerciser capability with support for both USB 2.0 and 3.0 traffic generation is built in to the Voyager platform. The exerciser option allows users to transmit custom packets over standard USB cables with low-level control of headers, payloads, timing, and link states. Featuring Voyager ReadyLink™ and Transaction Engine™ the exerciser includes full function link and transaction layer state machines that automatically handle all USB 3.0 handshakes. ReadyLink maintains link synchronization, flow control and header acknowledgements. The Transaction Engine manages NRDY retry conditions allowing the Voyager to operate at full line rate and correctly respond to the DUT as defined by the specification. Overrides allow these behaviors to be altered such as shortening LFPS and link training signals, or delaying handshake packets. The Exerciser is seamlessly integrated with the Protocol Analyzer, making the Voyager system a complete test and development solution for engineers validating USB protocol. More

USB Compliance Testing

The Voyager USB 3.0 Compliance Suite is a software option that provides comprehensive link layer test coverage to verify hosts and devices properly implement link training, link recovery and power management behaviors (chapter 7). Integrated with Teledyne LeCroy's Voyager exerciser platform, the Compliance Suite is certified for Link and Hub testing by the USB IF. More

USB Device Decoding

The Voyager software performs full decoding of USB device class traffic with both automatic and manual assignment of decodes to individual endpoints. The Voyager offers full support for Bulk Only Transport and USB Attached SCSI operations including command queuing. From OTG, to CCD, to Video class, Voyager provides the most comprehensive decoding available. It also supports vendor specific decoding for developers interested in automatically showing proprietary commands in the trace view.

Complete list of USB Decodes (Click to Expand ↓)

Find The Issues Fast

The Voyager software provides many mechanisms to measure and report on USB 2.0 and 3.0 protocol. With the Traffic Summary display, users can evaluate statistical reports at a glance or navigate to individual events. Users may select transaction packets to view ACK/NAK or Device Notification events, then jump to each occurrence with a single keystroke. Reports are available showing link throughput and flow control metrics. Higher level events are also tracked and reported at the logical USB Transfer level. The error report shows a range of protocol violations - from invalid CRCs to framing errors.

The LTSSM View provides an interactive USB 3.0 state machine diagram. Each state change is shown graphically and is hyperlinked to the trace display. The link state timing view shows the same information in a time-line format.

Bus Utilization graphs show data and packet length, bus usage by device in a histogram format. The Bandwidth calculator automatically calculates the time delta between two points in the trace. Fast Search and Find options allow users to navigate to specific packets, errors and any data type within a trace file. The CATC Trace supports filter and hide commands, to temporarily remove irrelevant data from the display for more efficient viewing.

Optimize vBus efficiency with PowerTracker™

The Voyager M3x Power Tracker option offers a unique monitoring capability for vBus power draw. Power information is sampled and displayed graphically in a time line format and is synchronized to the trace allowing users to verify power state transitions at the protocol and electrical layers. Power Tracker shows voltage, current and power for easy tracking of vBus changes. More

Since 1996, Teledyne LeCroy has been a key provider of tools for the USB ecosystem. The Voyager system leverages countless hours of research in high-speed serial data analysis to create the most reliable and accurate USB 3.0 analyzer system available. Combined with the exerciser option and the CATC Trace expert software, the Voyager platform alleviates developers from tedious byte-level analysis and lets them focus on quick resolution of protocol layer problems.