Keysight Technologies Serial Bus Options for InfiniiVision X-Series Oscilloscopes Data Sheet Introduction Serial buses are pervasive in today’s digital designs and are used for a variety of purposes including onboard chip-to-chip communication, CPU to peripheral control, as well as for remote sensor data transfer and control. Without intelligent oscilloscope serial bus triggering and protocol decode, it can be difficult to debug these buses and correlate data transfers with other mixed signal interactions in your system. Keysight Technologies, Inc. InfiniiVision X-Series oscilloscopes (DSOs) and mixed-signal oscilloscopes (MSOs) offer optional integrated serial bus triggering and hardware-based protocol decoding solutions that give you the tools you need to accelerate debug of your designs that include serial bus communication. Supported Protocols and Features –– I2C –– SPI –– RS232/UART –– CAN –– CAN FD (except 2000 X-Series) –– CAN-dbc symbolic decode and trigger (except 2000 X-Series) –– LIN –– LIN-ldf symbolic decode and trigger (except 2000 X-Series) –– SENT (3000T, 4000 and 6000 X-Series only) –– CXPI (3000T and 4000 X-Series only) –– FlexRay (except 2000 X-Series) –– USB 2.0 low- and full-speed (4000 and 6000 X-Series) –– USB 2.0 hi-speed (4000 and 6000 X-Series only) –– USB 2.0 signal quality (4000 and 6000 X-Series only) –– I2S (except 2000 X-Series) –– MIL-STD 1553 (except 2000 X-Series) –– ARINC 429 (except 2000 X-Series) –– Hardware-based decoding –– Multi-bus analysis (except 2000 X-Series) –– Automatic search and navigation –– Compatibility with segmented memory acquisition –– Eye-diagram mask files available for CAN, FlexRay, MIL-STD 1553, and ARINC 429 (requires DSOX2MASK/DSOX3MASK/DSOX4MASK/DSOX6MASK mask test option) –– FlexRay physical layer conformance test software (except 2000 X-Series) 03 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Hardware-Based Decoding Automatic Search and Navigation Figure 1. Hardware-based decoding quickly reveals serial communication errors. Figure 3. Automatic “Search & Navigation” quickly finds userspecified serial bus frames/bytes of interest. Keysight’s InfiniiVision Series oscilloscopes are the industry’s only Keysight’s InfiniiVision Series oscilloscopes are the industry’s only scopes to use hardware-based decoding. Most other vendor’s scopes with serial bus triggering and protocol decode, use software post-processing techniques to decode serial packets/ frames. With these software techniques, waveform- and decodeupdate rates tend to be slow (sometimes seconds per update.) That’s especially true when using deep memory, which is often required to capture multiple packetized serial bus signals. And when analyzing multiple serial buses simultaneously, software techniques can make decode update rates even slower. Faster decoding with hardware-based technology enhances scope usability, and more importantly, the probability of capturing infrequent serial communication errors. Figure 1 shows an example of a Keysight InfiniiVision X-Series scope capturing a random and infrequent CAN error frame. The upper half of the scope’s display shows the decoded data in a “Lister” format, along with a time-correlated decode trace shown below the waveform. Symbolic Trigger and Decode With the DSOXT3AUTO, DSOX4AUTO or DSOX6AUTO option licensed on a 3000T, 4000 or 6000 X-Series oscilloscope, you can import a .dbc file that defines your multi-node CAN network. The oscilloscope can then trigger on and decode the CAN bus symbolically as shown in Figure 2. LIN symbolic trigger and decode is also supported on the 3000T, 4000, and 6000 X-Series oscilloscopes by importing an industry-standard .ldf file. Figure 2. Symbolically decoding the CAN bus. After capturing a long record of serial bus communication using the InfiniiVision scope’s MegaZoom deep memory, you can easily perform a search operation based on specific criteria that you enter. Then, you can quickly navigate to bytes/frames of serial data that satisfy the entered search criteria. Figure 3 shows an example of searching on captured I2C data to find all occurrences of Read or Write operations with “No Ack.” In this case, the scope found five occurrences of data transfers with “No Ack,” and marked each occurrence with a white triangle to show where in time they happened relative to the captured waveform. Navigating and zooming-in on each marked byte/frame is quick and easy using the scope’s front panel navigation keys. Search and Navigation not available for DSOXT3CXPI/DSOX4CXPI. 04 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Multi-bus Analysis Using Segmented Memory to Capture Multiple Serial Bus Figure 4. An interleaved “Lister” makes it easier to time-correlate activity between two decoded serial buses. Figure 5. Segmented memory acquisition selectively captures more packets/bytes of serial bus activity. Many of today’s designs include multiple serial buses. Sometimes it may be necessary to correlate data from one serial bus to another. Keysight’s InfiniiVision 3000, 4000 and 6000 X-Series oscilloscopes can decode two serial buses simultaneously using hardware-based decoding. Plus they are the only scopes on the market that can also display the captured data in a timeinterleaved “Lister” display, as shown in Figure 4. In this particular example, the scope has simultaneously decoded and interleaved a CAN and LIN bus in an automotive system. PacketsThe segmented memory option for Keysight’s InfiniiVision X-Series oscilloscopes (standard in 3000T, 4000 and 6000 X-Series) can optimize your scope’s memory, letting you capture more packets/frames of serial bus activity. Segmented memory acquisition optimizes the number of packetized serial communication frames that can be captured consecutively. Segmented memory does this by capturing just the selective frames/bytes of interest while ignoring (not digitizing) idle time and other unimportant frames/bytes. Figure 5 shows an example of the oscilloscope capturing 500 consecutive hi-speed USB split packets for a total acquisition time of approximately 200 ms. Capturing this much data using conventional oscilloscope acquisition memory would require 1G bytes of memory. Keysight’s InfiniiVision X-Series oscilloscopes are the only scopes on the market today that can acquire segments on up to four analog channels of acquisition, and time-correlated segments on digital channels (using an MSO model), along with automatic hardware-based serial bus decoding for each segment. In addition, you can use the scope’s Search and Navigation capability after a segmented memory acquisition has been performed. 05 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Serial Bus Eye-diagram and Pulse Mask Testing With the addition of the DSOX2MASK, DSOX3MASK, DSOX4MASK or DSOX6MASK mask test option, which can perform over 200,000 pass/fail tests (50,000 on 2000 X-Series) per second, you can perform eye-diagram and pulse mask testing on CAN signals on all InfiniiVision X-Series oscilloscopes. Eye-diagram mask testing on FlexRay, MIL-STD 1553, and ARINC 429 signals can be performed using an InfiniiVision 3000, 4000 or 6000 X-Series oscilloscope. Eye-diagram measurements provide a comprehensive signal quality test of the integrity of your transmitted and received signals. Keysight provides various mask files that you can download at no charge. The mask files are based on published industry mask standards and/or derived from physical layer/electrical specifications. The following CAN mask files are available: –– 125 kbps – 400 meters –– 250 kbps – 200 meters –– 500 kbps – 10 meters –– 500 kbps – 80 meters –– 800 kbps – 40 meters –– 1000 kbps – 25 meters Mask files for CAN FD are also available (3000, 4000, and 6000 X-Series only). CAN FD eye-diagrams are based on the first 10 bits of the FD phase from all frames. Figure 6. CAN 500 kbps mask test on 10 meter system. The following FlexRay mask test files are available: –– TP1 standard voltage (10 Mbps only) –– TP1 increased voltage (10 Mbps only) –– TP11 standard voltage (10 Mbps only) –– TP11 increased voltage (10 Mbps only) –– TP4 10 Mbps –– TP4 5 Mbps –– TP4 2.5 Mbps Figure 7. FlexRay TP4 eye-diagram mask test. The following MIL-STD 1553 mask test files are available: –– System xfmr-coupled Input –– System direct-coupled Input –– BC xfmr-coupled Input –– BC direct-coupled Input –– RT xfmr-coupled Input –– RT direct-coupled Input Figure 8. MIL-STD 1553 BC to RT xfrm-coupled input mask test reveals a shifted bit that violates the pass/fail mask. 06 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Serial Bus Eye-diagram and Pulse Mask Testing The following ARINC 429 mask/pulse test files are available: –– 100 kbps Eye Test –– 100 kbps 1’s Pulse Test –– 100 kbps 0’s Pulse Test –– 100 kbps Null Level Test –– 12.5 kbps Eye Test –– 12.5 kbps 1’s Pulse Test –– 12.5 kbps 0’s Pulse Test –– 12.5 kbps Null Level Test For additional information about eye-diagram mask testing on CAN, FlexRay, MIL-STD 1553, and ARINC 429 signals, refer to the application notes listed at the end of this document. Figure 9. ARINC 429 100 kbps eye-diagram mask test. Automated Physical Layer Conformance Testing To perform USB 2.0 signal quality testing based on USB-IF compliance standards, Keysight offers the DSOX4USBSQ or DSOX6USBSQ options on InfiniiVision 4000 or 6000 X-Series oscilloscopes. Figure 10 shows an example of the USB 2.0 real-time eye test. Also included with this option is complete signal quality test report generation in HTML format. To see the complete list of supported tests, refer to the DSOX4USBSQ/ DSOX6USBSQ signal quality test option data sheet listed at the ended of this document. To perform physical layer conformance testing on the differential FlexRay bus, Keysight provides a PC-based software package that you can download from Keysight’s website at no additional charge. If the InfiniiVision X-Series scope is licensed with the FlexRay, mask test, and segmented memory, you can perform automated physical layer tests at either receiver input or transmitter output test points. Figure 10 shows an example of the generated report from a signal integrity voting test on a 10-Mbs isolated “1” pulse. The test report includes comprehensive pass/ fail and margin analysis based on published specifications. Figure 10. USB 2.0 signal quality eye test based on USB-IF physical layer compliance standards. Refer to the tables in the Specifications/Characteristics section of this document on page 17 to see the entire list of 33 available FlexRay tests that can be selected and performed using the FlexRay physical layer conformance test software package. Figure 11. FlexRay signal integrity voting test performed on an isolated “1” bit. 07 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Probing Differential Serial Buses Many of today’s serial buses are based on differential signaling including USB, CAN, CAN FD, FlexRay, MIL-STD 1553, and ARINC 429. In addition, serial buses based on the RS232/UART protocol are often differential if implemented with RS422 or RS485 output drivers/ transceivers. Keysight offers a wide range of differential active probes compatible with the InfiniiVision X-Series oscilloscopes for various bandwidth and dynamic range applications. Table 1 shows the differential probes that Keysight recommends for each of the listed differential serial buses. Table 1. Recommended probes for differential buses Differential bus (max bit rate) CAN (1 Mbps) CAN FD (10 Mbps data phase) FlexRay (10 Mbps) MIL-STD 1553 (1 Mbps) ARINC 429 (100 kbps) RS422/RS485 (10 Mbps) Hi-speed USB (480 Mbps) 1. N2791A (25-MHz bandwidth) X X X X N2818A 1 (200-MHz bandwidth) X X X X X X N2750A (1.5-GHz bandwidth) X The N2818A differential probe is not compatible with Keysight’s InfiniiVision 2000 X-Series oscilloscopes. If you need to connect to DB9-SubD connectors on your differential CAN, CAN FD and/or FlexRay bus, Keysight also offers the CAN/FlexRay DB9 probe head (part number 0960-2926) is shown in the inset picture of Figure 12. When probing differential signals inside of environmental chambers at extreme temperatures, Keysight offers the N7013A extreme temperature extension kit shown in Figure 13. The N7013A is compatible with the N2791A and N2818A differential probes and can operate in temperatures ranging from -40 degrees to +85 degree Celsius. To learn more about this probing solution, refer the Extreme Temperature Probing Solutions selection guide (publication number 5991-3504EN) listed at the end of this document. Figure 12. Keysight’s N2818A 200-MHz differential active probe. The N2750A differential active probe shown in Figure 14, which is recommended for hi-speed USB 2.0 measurement applications, is based on Keysight’s InfiniiMode technology. With the press of a button, you can quickly toggle between viewing the differential signal, high-side signal, low-side signal, or the common mode signal on the USB 2.0 hi-speed bus without moving probe connections. Figure 14. Keysight’s N2750A 1.5-GHz InfiniiMode differential active probe. Figure 13. The N7013A extreme temperature probing kit for differential probes. 08 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics I2C specifications/characteristics (DSOX2EMBD, DSOX3EMBD, and DSOX4EMBD Clock and data input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 (3000, 4000 and 6000 X-Series only) Max clock/data rate Up to 3.4 Mbps Triggering Start condition Stop condition Missing acknowledge Address with no acknowledge Restart EEPROM data read Frame (Start:Addr7:Read:Ack:Data) Frame (Start:Addr7:Write:Ack:Data) Frame (Start:Addr7:Read:Ack:Data:Ack:Data2) Frame (Start:Addr7:Write:Ack:Data:Ack:Data2) 10-bit write Hardware-based decode Data (HEX digits in white) Address decode size: 7 bits (excludes R/W bit) or 8 bits (includes R/W bit) Read address (HEX digits followed by “R” in yellow) Write address (HEX digits followed by “W” in light-blue) Restart addresses (“S” in green, followed by HEX digits, followed by “R” or “W”) Acknowledges (suffixes “A” or “~A” in the same color as the data or address preceding it) Idle bus (mid-level bus trace in dark blue) Active bus (bi-level bus trace in dark blue) Unknown/error bus (bi-level bus trace in red) Multi-bus analysis I2C plus one other serial bus, including another I2C bus. (3000, 4000 and 6000 X-Series only) 09 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) SPI specifications/characteristics (DSOX2EMBD, DSOX3EMBD, DSOX4EMBD and DSOX6EMBD) MOSI, MISO, Clock, and CS input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 (3000, 4000 and 6000 X-Series only) Max clock/data rate Up to 25 Mb/s Triggering 4- to 64-bit data pattern during a user-specified framing period Framing period can be a positive or negative chip select (CS or ~CS) or clock idle time (timeout) Hardware-based decode Number of decode traces: 2 independent traces (MISO and MOSI) Data (hex digits in white) Unknown/error bus (bi-level bus trace in red) Number of clocks/packet (“XX CLKS” in light-blue above data packet) Idle bus (mid-level bus trace in dark blue) Active bus (bi-level bus trace in dark blue) Multi-bus analysis SPI plus one other serial bus, excluding another SPI bus. (3000, 4000 and 6000 X-Series only) 10 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) RS232/UART specifications/characteristics (DSOX2COMP, DSOX3COMP, DSOX4COMP and DSOX6COMP) Tx and Rx input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 (3000, 4000 and 6000 X-Series only) Bus configuration –– Baud rates 100 b/s up to 8 Mb/s –– Number of bits 5 to 9 –– Parity None, odd, or even –– Polarity Idle low or idle high –– Bit order LSB out first or MSB out first Triggering Rx start bit Rx stop bit Rx data Rx 1:data (9-bit format) Rx 0:data (9-bit format) Rx X:data (9-bit format) Rx or Tx parity error Tx start bit Tx stop bit Tx data Tx 1:data (9-bit format) Tx 0:data (9-bit format) Tx X:data (9-bit format) Burst (nth frame within burst defined by timeout) Hardware-based decode –– Number of decode traces 2 independent traces (Tx and Rx) –– Data format Binary, hex, or ASCII-code characters –– Data byte display White characters if no parity error, red characters if parity or bus error –– Idle bus trace Mid-level bus trace in blue –– Active bus trace Bi-level trace in blue Multi-bus analysis RS232/UART plus one other serial bus, including another RS232/UART bus. (3000, 4000 and 6000 X-Series only) Totalize/counter function Total received frames Total transmitted frames Total parity error frames (with percentage) 11 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) USB 2.0 low- and full-speed specifications/characteristics (DSOX4USBFL and DSOX6USBFL) USB input source (D+ & D-) Analog channels 1, 2, 3, 4 Digital channels D0-D15 Speed Low (1.5 Mb/s) and Full (12 Mb/s) Triggering Start of packet (SOP) End of packet (EOP) Suspend – when bus is idle for > 3 ms Resume – when exiting an idle state > 10 ms Reset – when SE0 is > 10 ms Token packet with specified content Data packet with specified content Handshake packet with specified content Special packet with specified content All errors – any of the below error conditions PID error – if packet type field does not match check field CRC5 error – if 5 bit CRC error is detected CRC16 error – if 16 bit CRC error is detected Glitch error – if two transitions occur in half a bit time Bit stuff error – if >6 consecutive “ones” are detected SE1 error – if SE1 > 1 bit time Hardware-based decode –– Base format Hex, Binary, ASCII, or Decimal data decode –– Token packets (excluding SOF, 3 bytes) PID (yellow, “OUT”, “IN”, “SETUP”, “PING”) PID Check (yellow when valid, red when error detected) – numeric value Address (blue, 7 bits) Endpoint (green, 4 bits) CRC (blue when valid, red when error detected, 5 bits) –– Token packets (SOF, 3 bytes) PID (yellow, “SOF”) PID Check (yellow when valid, red when error detected, 5 bits) Frame (green, 11-bits) – the frame number CRC (blue when valid, red when error detected, 5 bits) –– Data packets (3 to 1027 bytes) PID (yellow, “DATA0”, “DATA1”, DATA2”, “MDATA”) PID Check (yellow when valid, red when error detected, 16 bits) –– Handshake packets (1 byte) PID (yellow, “ACK”, “NAK”, “STALL”, “NYET”, “PRE”, “ERR”) PID Check (yellow when valid, read when error detected) – numeric value Hub Addr (green, 7 bits) SC (blue, 1 bit) Port (green, 7 bits) S & E|U (blue, 2 bits) ET (green, 2 bits) CRC (blue when valid, red when error detected, 5 bits –– Multi-bus analysis USB low-full-speed plus one other serial bus (including another USB bus) 12 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) USB 2.0 high-speed specifications/characteristics (DSOX4USBH and DSOX6USBH) USB differential input source Analog channels 1, 2, 3, 4 (using a differential active probe) Speed High (480 Mb/s) Triggering Token packet with specified content Data packet with specified content Handshake packet with specified content Special packet with specified content All errors – any of the below error conditions PID error – if packet type field does not match check field CRC5 error – if 5 bit CRC error is detected CRC16 error – if 16 bit CRC error is detected Glitch error – if two transitions occur in half a bit time Hardware-based decode Base format Hex, Binary, ASCII, or Decimal data decode Token packets (excluding SOF, 3 bytes) PID (yellow, “OUT”, “IN”, “SETUP”, “PING”) PID check (yellow when valid, red when error detected) – numeric value Address (blue, 7 bits) Endpoint (green, 4 bits) CRC (blue when valid, red when error detected, 5 bits) Token packets (SOF, 3 bytes) PID (yellow, “SOF”) PID check (yellow when valid, red when error detected, 5 bits) Data packets (3 to 1027 bytes) Frame (green, 11-bits) – the frame number CRC (blue when valid, red when error detected, 5 bits) PID (yellow, “DATA0”, “DATA1”, DATA2”, “MDATA”) PID check (yellow when valid, red when error detected, 16 bits) Handshake packets (1 byte) PID (yellow, “ACK”, “NAK”, “STALL”, “NYET”, “PRE”, “ERR”) PID check (yellow when valid, read when error detected) – numeric value Hub Addr (green, 7 bits) SC (blue, 1 bit) Port (green, 7 bits) S & E|U (blue, 2 bits) ET (green, 2 bits) CRC (blue when valid, red when error detected, 5 bits Multi-bus analysis N/A 13 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) CAN specifications/characteristics (DSOX2AUTO and DSOX3AUTO) CAN input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 non-differential. (3000 X-Series only) Signal types Rx, Tx, CAN_L, CAN_H, Diff (L-H), Diff (H-L) Baud rates 10 kb/s up to 5 Mb/s Triggering Start-of-frame (SOF) Remote frame ID (RMT) Data frame ID (~RMT) Remote or data frame ID Data frame ID and data Error frame All errors (includes protocol “form” errors that may not generate flagged error frames) Acknowledge errors Overload frames ID length: 11 bits or 29 bits (extended) Hardware-based decode Frame ID (hex digits in yellow) Remote frame (RMT in green) Data length code (DLC in blue) Data bytes (hex digits in white) CRC (hex digits in blue = valid, hex digits in red = error) Error frame (bi-level bus trace and ERR message in red) Form error (bi-level bus trace and “?” in red) Overload frame (“OVRLD” in blue) Idle bus (mid-level bus trace in dark blue) Active bus (bi-level bus trace in dark blue) Multi-bus analysis CAN plus one other serial bus, including another CAN bus. (3000 X-Series only) Totalize function Total frames, total overload frames, total error frames, bus utilization (bus load) Eye-diagram mask testing (3000 X-Series Various downloadable mask files available based on differential probing polarity, baud rate, and network only, requires DSOX3MASK) length 14 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) CAN/CAN FD specifications/characteristics (DSOXT3AUTO, DSOX4AUTO, and DSOX6AUTO) Note: “Classic” CAN 2.0 is a subset of CAN FD. CAN FD trigger and decode supports ISO and non-ISO CAN FD specifications. Both of these protocol standards are supported with the DSOXT3AUTO, DSOX4AUTO, and DSOX6AUTO option in an InfiniiVision 3000T, 4000, and 6000 X-Series oscilloscope. CAN input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 non-differential Signal types Rx, Tx, CAN_L, CAN_H, Diff (L-H), Diff (H-L) Standard baud rates 10 kb/s up to 5 Mb/s FD baud rates 10 kb/s up to 10 Mb/s Triggering SOF (Start-of-frame) EOF (End-of-frame, filtered by ID) Data frame ID (11 bits or 29 bits: Extended) Data frame ID and data – non FD Data frame ID and data - FD Remote frame ID (RTR) Remote or data frame ID Error frame (filtered by ID) Acknowledge error (filtered by ID) Form error (filtered by ID) Stuff error (filtered by ID) CRC error (filtered by ID) Spec error (includes Ack, Form, Stuff, or CRC error; filter by ID) All errors (includes any Spec error or Error frame; filtered by ID) BRS bit (filtered by ID of FD frames only) CRC delimiter bit (filtered by ID of FD frames only) ESI bit active (filtered by ID of FD frames only) ESI bit passive (filtered by ID of FD frame only) Overload frames Symbolic triggering (based on .dbc file) Message names Message and signal values/encoded states (first 8 bytes) Hardware-based decode Frame ID (hex digits in yellow) Remote frame (RMT in green) Data length code (DLC = with decimal digits in blue) Data bytes (hex digits in white) ESI bit passive (frame type column in lister shaded yellow; FD frames only) Error frame (bi-level red bus trace with ERR FRAME in red) Stuff bit error (bi-level red bus trace with STUFF ERR in red) Form error (bi-level red bus trace with FORM ERR in red) Acknowledge error (bi-level red bus trace with ACK ERR in red) CRC (hex digits in blue = valid, hex digits in red = error) Overload frame (“OVRLD” in blue) Idle bus (mid-level dark blue bus trace) Active bus (bi-level dark blue bus trace with embedded decode within) Symbolic decode (based on .dbc file) Message names (alpha-numeric characters in yellow) Signal names, value/encoded state (first 8 bytes), and units (alpha-numeric characters in white) Multi-bus analysis CAN/CAN FD plus one other serial bus, including another CAN/CAN FD bus Totalize function (real time) Total frames, total error frames with %, total spec errors, bus load in % CAN/CAN FD Eye-diagram mask testing Various downloadable mask files available based on differential probing polarity, baud rate, and network length (requires DSOX3MASK/DSOX4MASK/ DSOX6MASK) 15 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) LIN specifications/characteristics (DSOX2AUTO, DSOX3AUTO, DSOXT3AUTO, DSOX4AUTO and DSOX6AUTO) LIN input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 except 2000 X-Series LIN standards LIN 1.3 or LIN 2.X Baud rates 2400 b/s to 625 kb/s Triggering Sync break Frame ID (0X00HEX to 0X3FHEX) Frame ID and data Parity error Checksum error Symbolic decode (except 2000X)(based on Message names (alpha-numeric characters in yellow) .ldf file) Signal names, value/encoded state and units (alpha-numeric characters in white) Hardware-based decode Frame ID (6-bit hex digits in yellow) Frame ID and optional parity bits (8-bit hex digits in yellow if valid, red if parity bit error) Data bytes (hex digits in white) Check sum (hex digits in blue = valid, hex digits in red = error) Sync error (“SYNC” in red) THeader-max (“THM” in red) TFrame-max (“TFM” in red) Parity error (“PAR” in red) LIN 1.3 wake-up error (“WUP” in red) Idle bus (mid-level bus trace in dark blue) Active bus (bi-level bus trace in dark blue) Symbolic triggering (except 2000X) (based on Message names .dbc file) Message and signal values/encoded states Multi-bus analysis LIN plus one other serial bus, including another LIN bus. (except 2000X) 16 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) SENT specifications/characteristics (DSOXT3SENSOR, DSOX4SENSOR, and DSOX6SENSOR) CAN input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 non-differential Clock period 1 µs to 300 µs with user-defined tolerance setting from 3 to 30% Number of nibbles 1 to 6 Idle state High or low CRC format 2008 or 2010 standards Pause pulse On/Off Message format Fast Nibbles (All) Fast Signals (only) Fast + Short Serial Fast + Enhanced Serial (automatically detects bit format: 12-bit data/8-bit ID or 16-bit data/4-bit ID) Short Serial (only) Enhanced Serial (only) Number of defined signals 1 to 6 (each specified by start bit #, number of bits, and nibble order) Numerical format of signals Hexadecimal, unsigned decimal, or transfer function with user-defined multiplier and offset for each defined signal Triggering Start of fast channel message Start of slow channel message Fast channel status & communication nibble + data Slow channel message ID Slow channel message ID + data Tolerance violation (sync pulse width exceeds user-specified tolerance) Fast channel CRC error Slow channel CRC error All CRC errors Pulse period error (if nibbles are < 12 or > 27 ticks wide) Successive sync pulses error (if consecutive sync pulse widths are greater than 1/64 difference) Fast channel decode Status & communication nibble (binary digits in green) Data (hex, unsigned decimal, or transfer function digits in white based on user-defined signal format) CRC error (hex digit in blue = valid, hex digit in red = error) Pulse period error (< or > in red) Slow channel decode Message ID (hex digits in yellow) Data (hex digits in white) CRC (hex digits in blue = valid, hex digits in red = error) Multi-bus analysis SENT plus one other serial bus, including another SENT bus 17 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) CXPI specifications/characteristics (DSOXT3CXPI and DSOX4CXPI) CXPI input source Analog channels 1, 2, 3 or 4 Baud rates 9.6 kb/s to 40 kb/s (20 kb/s typical) with tolerance setting Triggering SOF (Start-of-frame) EOF (End-of-frame) PTYPE Frame ID (PTPYE present or not present) Frame ID + info + data Frame ID + info + data (long frame) CRC field error (filtered by ID) Parity error Inter-byte space error (filtered by ID) Inter-frame space error (filtered by ID) Framing error (filtered by ID) Data length error (filtered by ID) Sample error All errors Sleep frame Wakeup pulse Hardware-based decode Frame ID (hex digits in yellow if valid or red if parity error) Data length code (DLC = with decimal digits in blue) Network management (NM) bits (binary digits in green) Counter (CT) bits (binary digits in yellow) Data (hex digits in white) CRC (hex digits in blue = valid, hex digits in red = error) Idle bus (mid-level dark blue bus trace) Active bus (bi-level dark blue bus trace with embedded decode within) Inter-byte space error (IBS ERR in red) Data length error (LEN ERR in red) Sleep mode (SLEEP MODE in orange within bi-level orange bus trace) Wakeup pulse (WAKEUP PULSE in blue with bi-level blue bus trace) Multi-bus analysis CXPI plus one other serial bus 18 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) FlexRay specifications/characteristics (DSOX3FLEX, DSOX4FLEX and DSOX6FLEX) FlexRay input source Channel 1, 2, 3, or 4 (using differential probe) FlexRay channels A or B Baud rates 2.5 Mbps, 5.0 Mbps, and 10 Mbps Frame triggering Frame type: Startup (SUP), not startup (~SUP), sync (SYNC), not sync (~SYNC), null (NULL), not null (~NULL), normal (NORM), and All Frame ID: 1 to 2047 (decimal format), and All Cycle Base: 0 to 63 (decimal format), and All Repetition: 1, 2, 4, 8, 16, 32, 64 (decimal format), and All Error triggering All errors Header CRC error Frame CRC error Event triggering Wake-up TSS (transmission start sequence) BSS (byte start sequence) FES/DTS (frame end or dynamic trailing sequence) Frame decoding Frame type (NORM, SYNC, SUP, NULL in blue) Frame ID (decimal digits in yellow) Payload-length (decimal number of words in green) Header CRC (hex digits in blue if valid, or red digits if invalid) Cycle number (decimal digits in yellow) Data bytes (HEX digits in white) Frame CRC (hex digits in blue if valid, or red digits Totalize function Total frames Total synchronization frames Total null frames TP1 standard voltage (10 Mbps only) Eye-diagram mask testing (requires DSOX3MASK mask test option plus TP1 increased voltage (10 Mbps only) downloadable mask files) TP11 standard voltage (10 Mbps only) TP11 increased voltage (10 Mbps only) TP4 10 Mbps, TP4 5 Mbps and TP4 2.5 Mbps Multi-bus analysis FlexRay plus one other serial bus (including another FlexRay bus) 19 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet FlexRay Physical Layer Conformance Test software Requires FlexRay option (DSOX3FLEX/DSOX4FLEX/DSOX6FLEX) Mask test option (DSOX3MASK/DSOX4MASK/DSOX6MASK) Segmented memory option (DSOX3SGM or standard on 3000T, 4000 and 6000 X-Series) Table 1. Receiver input tests Parameter tested Test description Eye-diagram mask tests: –– TP4 – All Receiver mask test on all frames –– TP4 – ID Receiver mask test on specified frame Signal integrity voting tests on 13 MHz low-pass filtered Isolated “1”: –– uData1Top Required maximal level –– dBitShort Shortest single bit –– dBitLengthVariation Bit asymmetry –– dEdge01 Rising edge duration (-300 mV to +300 mV) –– dEdge10 Falling edge duration (+300 mV to -300 mV) –– dEdgeMax Slowest edge –– Sq1 Isolated “1” voted signal quality Signal integrity voting tests on 13 MHz low-pass filtered Isolated “0”: –– uData0Top Required minimal level –– dBitShort Shortest single bit –– dBitLengthVariation Bit asymmetry –– dEdge01 Rising edge duration (-300 mV to +300 mV) –– dEdge10 Falling edge duration (+300 mV to -300 mV) –– dEdgeMax Slowest edge –– Sq0 Isolated “0” voted signal quality Advanced diagnostic tests: –– gdTSSTransmitter Transmitted TSS width @ receiver –– MCT Mean corrected cycle time –– uBusRx-Data Data 1 amplitude –– -uBusRx-Data Data 0 amplitude –– uRx-Idle Mean idle level –– dBusRx01 Rise time Data0 to Data1 (–300 mV to +300 mV) –– dBusRx10 Fall time Data1 to Data0 (+300 mV to -300 mV) Table 2. Transmitter output tests Parameter tested Eye-diagram mask tests (10 Mbs only): –– TP1 – Std V –– TP1 – Incr V –– TP11 – Std V –– P11 – Incr V Advanced diagnostic tests: –– gdTSSTransmitter –– uBusTx-Data –– -uBusTx-Data –– uRx-Idle –– dBusTx01 –– dBusTx10 Test description Mask test on standard voltage bus driver output Mask test on increased voltage bus driver output Mask test on standard voltage active star output Mask test on increased voltage active star output Transmitted TSS width Data 1 amplitude Data 0 amplitude Mean idle level Rise time Data0 to Data1 (20 to 80%) Fall time Data1 to Data0 (80 to 20%) 20 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) I2S specifications/characteristics (DSOX3AUDIO, DSOX4AUDIO, and DSOX6AUDIO) SCLK, WS, and SDATA input source Analog channels 1, 2, 3, or 4 Digital channels D0 to D15 Bus configuration: –– Transmitted word size 4 to 32 bits (user selectable) –– Decoded/receiver word size 4 to 32 bits (user selectable) –– Alignment Standard, left-justified, or right-justified –– Word select - low Left-channel or right-channel –– SCLK slope Rising edge or falling edge –– Decoded base Hex (2’s complement) or signed decimal Baud rates 2400 b/s to 625 kb/s Triggering: –– Audio channel Audio left, audio right, or either –– Trigger modes = (Equal to entered data value) ≠ (Not equal to entered data value) < (Less than entered data value) > (Greater than entered data value) >< (Within range of entered data values) <> (Out of range of entered data values) Increasing value that crosses armed (<=) and trigger (>=) entered data values Decreasing value that crosses armed (>=) and trigger (<=) entered data values Hardware-based decode: –– Left channel L: “decoded value” in white –– Right channel R: “decoded value” in green –– Error ERR in red (mismatch between transmitted and received word size, or invalid input signaling) –– Word size indicator “# of TX / # of RX” CLKS in blue displayed above each decoded work I2S plus one other serial bus (excluding another I2S bus) Multi-bus analysis 21 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) MIL-STD 1553 specifications/characteristics (DSOX3AERO, DSOX4AERO, and DSOX6AERO) MIL-Std 1553 input source Analog channels 1, 2, 3, or 4 (using a differential active probe) Triggering Data word start Data word stop Command/status word start Command/status word stop Remote terminal address (hex) Remote terminal address (hex) + 11 bits (binary) Parity error Sync error Manchester error Color-coded, hardware-accelerated decode Base: HEX or binary Command or status word (“C/S” in green) Remote terminal address (hex or binary digits in green) 11 Bits following RTA (hex or binary digits in green) Data word (“D” in white) Data word bits (hex or binary digits in white) Parity error (all decoded text in red) Synchronization error (“Sync” in red) Manchester error (“Manch“ in red) System xfmr-coupled input Eye-diagram mask testing (requires DSOX3MASK mask test option plus System direct-coupled input downloadable mask files) BC xfmr-coupled input BC direct-coupled input RT xfmr-coupled input RT xfmr-coupled input Multi-bus analysis MIL-STD 1553 plus one other serial bus, (including another MIL-STD 1553 bus) 22 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Specifications/Characteristics (Continued) ARINC 429 specifications/characteristics (DSOX3AERO, DSOX4AERO and DSOX6AERO) ARINC 429 input source Analog channels 1, 2, 3, or 4 (using a differential active probe) High (100 kbps) Baud rates Low (12.5 kbps) Triggering Word start Word stop Label (octal) Label (octal) + bits (binary) Label range (octal) Parity error Word error Gap error Word or gap error All errors All bits (useful for eye-diagram testing) All 0 bits All 1 bits Color-coded, hardware-accelerated decode Word format: Label/SDI/data/SSM or label/data/SSM or label/data Label (octal digits in yellow) SDI (binary digits in blue) Data (hex or binary digits in white) SSM (binary digits in green) Errors (text in red) Totalize function Total words Total errors Eye-diagram and pulse mask testing (requires 100 kbps eye test DSOX3MASK plus downloadable mask files) 100 kbps 1’s test 100 kbps 0’s test 100 kbps null test 12.5 kbps eye test 12.5 kbps 1’s test 12.5 kbps 0’s test 12.5 kbps null test Multi-bus analysis ARINC 429 plus one other bus (including another ARINC 429 bus) 23 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Ordering Information The various serial bus options are compatible on most models of the Keysight InfiniiVision 3000, 4000 and 6000 X-Series oscilloscopes. The entry-level 2000 X-Series oscilloscopes support only the I2C/SPI, RS232/UART, and CAN/LIN options. Existing InfiniiVision X-Series oscilloscopes can also be upgraded with these options. For most model numbers, the number after DSOX tells you to which series of oscilloscope it applies. For example, DSOX2EMBD applies to the 2000 X-Series and DSOX3EMBD applies to the 3000 X-Series. “T” in the model number indicates that this option is available in the 3000T X-Series, but not in the 3000A X-Series. Model number DSOX2EMBD, DSOX3EMBD, DSOX4EMBD or DSOX6EMBD DSOX2COMP, DSOX3COMP, DSOX4COMP or DSOX6COMP DSOX2AUTO or DSOX3AUTO DSOXT3AUTO, DSOX4AUTO, or DSOX6AUTO DSOXT3SENSOR, DSOX4SENSOR, or DSOX6SENSOR DSOX3TCXPI or DSOX4CXPI DSOX3FLEX, DSOX4FLEX or DSOX6FLEX DSOX3AERO, DSOX4AERO or DSOX6AERO DSOX3AUDIO, DSOX4AUDIO or DSOX6AUDIO DSOX4USBFL or DSOX6USBFL DSOX4USBH or DSOX6USBH DSOX4USBSQ or DSOX6USBSQ DSOX2SGM and DSOX3SGM DSOX2MASK, DSOX3MASK, DSOX4MASK or DSOX6MASK N2791A N2818A N7013A N2750A 0960-2926 Description I2C and SPI trigger and decode RS232/UART trigger and decode CAN and LIN trigger and decode CAN, CAN FD, and LIN trigger and decode, including CAN-dbc and LIN-ldf symbolic decoding Single Edge Nibble Transmission (SENT) trigger and decode Clock extension peripheral interface (CXPI) trigger and decode FlexRay trigger and decode MIL-STD 1553 and ARINC 429 trigger and decode I2S trigger and decode USB 2.0 low- and full-speed trigger and decode USB 2.0 hi-speed trigger and decode (1 GHz and 1.5 GHz bandwidth models of 4000 X-Series only) USB 2.0 signal quality test (hi-speed tests require 1.5 GHz bandwidth models) Segmented memory (standard on 3000T, 4000 and 6000 X-Series models) Mask test option 25-MHz differential active probe 200-MHz differential active probe Extreme temperature probing kit for differential active probes 1.5 GHz differential active probe (recommended for USB 2.0 hi-speed applications) DB9 probe head adapter for N2791A and N2818A Additional options and accessories are available for Keysight’s InfiniiVision oscilloscopes. Refer to the first four documents in the list below for ordering information about these additional options and accessories. 24 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet Related Keysight Literature Publication title InfiniiVision 2000 X-Series Oscilloscopes - Data Sheet InfiniiVision 3000T X-Series Oscilloscopes - Data Sheet InfiniiVision 4000 X-Series Oscilloscopes - Data Sheet InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet InfiniiVision Oscilloscope Probes and Accessories - Selection Guide Extreme Temperature Probing Solutions for Oscilloscope Measurements - Data Sheet N2792A/N2818A 200 MHz and N2793A/N2819A 800 MHz Differential Probes - Data Sheet N2750A/51A/52A InfiniiMode Differential Active Probes - Data Sheet DSOX4USBSQ and DSOX6USBSQ USB 2.0 Signal Quality Test Option for 4000 and 6000 X-Series - Data Sheet Using Oscilloscope Segmented Memory for Serial Bus Applications - Application Note Characterizing Hi-Speed USB 2.0 Serial Buses In Embedded Designs - Data Sheet Debug Automotive Designs Faster with CAN-dbc Symbolic Trigger and Decode - Application Note CAN Eye-Diagram Mask Testing - Application Note CAN FD Eye-Diagram Mask Testing - Application Note Characterizing CAN Bus Arbitration Using InfiniiVision 4000/6000 X-Series Oscilloscope - Application Note FlexRay Physical Layer Eye-diagram Mask Testing - Application Note MIL-STD 1553 Eye-diagram Mask Testing – Application Note ARINC 429 Eye-diagram and Pulse-shape Mask Testing – Application Note Publication number 5990-6618EN 5992-0140EN 5991-1103EN 5991-4087EN 5968-8153EN 5990-3504EN 5990-4753EN 5991-0560EN 5991-1762EN 5990-5817EN 5991-1148EN 5991-2847EN 5991-0484EN 5992-0437EN 5991-4166EN 5990-4923EN 5990-9324EN 5990-9325EN To download these documents, insert the publication number in the URL: http://cp.literature.keysight.com/litweb/pdf/xxxx-xxxxEN.pdf Product web site For the most up-to-date and complete application and product information, please visit our product Web sites at: –– www.keysight.com/find/2000X-Series –– www.keysight.com/find/3000TX-Series –– www.keysight.com/find/4000X-Series –– www.keysight.com/find/6000X-Series Keysight Oscilloscopes Multiple form factors from 20 MHz to > 90 GHz | Industry leading specs | Powerful applications 25 | Keysight | Serial Bus Options for InfiniiVision X-Series Oscilloscopes - Data Sheet www.axiestandard.org AdvancedTCA® Extensions for Instrumentation and Test (AXIe) is an open standard that extends the AdvancedTCA for general purpose and semiconductor test. 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For other unlisted countries: www.keysight.com/find/contactus Keysight Channel Partners www.keysight.com/find/channelpartners Get the best of both worlds: Keysight’s measurement expertise and product breadth, combined with channel partner convenience. DEKRA Certified www.keysight.com/find/2000X-Series www.keysight.com/find/3000X-Series www.keysight.com/find/4000X-Series www.keysight.com/find/6000X-Series (BP-06-08-16) ISO9001 Quality Management System www.keysight.com/go/quality Keysight Technologies, Inc. DEKRA Certified ISO 9001:2015 Quality Management System This information is subject to change without notice. © Keysight Technologies, 2012 - 2016 Published in USA, June 9, 2016 5990-6677EN www.keysight.com