The NX5300 is a single-slot, 3U PXI card designed for troubleshooting processor-based boards using JTAG or On-Chip Debug ports. [1] It doesn't require special fixturing and supports on-board Flash ROM programming. [1] It functions as a high-performance JTAG-based background debug mode (BDM) diagnostic system suitable for functional testing, development, programming, and troubleshooting of microprocessor and microcontroller-based embedded processor systems. [1]
Here's a breakdown of its capabilities:
JTAG/BDM: It interfaces with the unit under test (UUT) via an On-Chip Debug (OCD) or JTAG port. [1] It can simultaneously support up to 255 devices on a single scan chain, and up to sixteen NX5300 systems can be controlled by a single host machine. [1] The JTAG/BDM clock rates are configurable up to 24 MHz. [1] The JTAG clock (TCK) rate is either 6 MHz or 24 MHz with the -5 option. [1]
Digital I/O: It includes 16 general-purpose digital I/O channels. [1] Each channel can be configured as an input or output. [1]
Measurements: Each of the 16 channels can measure logic levels, frequency, count events, and perform CRC checks at rates up to 100 MHz. [1] It also includes a high-speed logic probe for nodal diagnostics. [1] The logic probe can measure frequencies, logic levels, edge counts, and CRCs, with a maximum sample rate of 100 MS/sec and an input impedance of 100 KΩ. [1]
SVF: The NX5300 can record and playback serial vector format (SVF) files. [1]
Boundary Scan: With additional software and boundary scan description language (BSDL) files, it can monitor a UUT's boundary scan pins, change pin states, and record vector sequences from a known good board. [1] These vectors can then be used to test other boards. [1]
Software: A Windows GUI is included with built-in functions like memory read/write and I/O read/write. [1] Higher-level functions like bus diagnostics, memory tests, and memory move/copy operations are also available. [1] A built-in macro language supports the development of complex test procedures. [1] It can interface with programming languages that support DLLs, such as Visual C, Visual Basic, ATEasy™, Delphi™, LabView™, and LabWindows/CVI™. [1]
Applications: The NX5300 is suitable for Automatic Test Equipment (ATE), workstation service and repair, and engineering evaluation. [1]
Digital I/O Specifications: The NX5300 has 16 general-purpose digital I/O channels, each configurable as an input or output. [1] It can measure logic levels, frequency, count events, and generate CRC. [1] The maximum measurement rate is 100 MHz. [1] The output is TTL compatible (5 V) or 3.3 V, and the input has a maximum of 5 V. [1]
Triggering: It supports output pattern match based on digital I/O channel states and connects to the PXI trigger bus. [1] It can also input from the PXI trigger bus to trigger a JTAG or digital I/O event. [1]
Supported Processors: It supports a wide range of processors from manufacturers like Power PC, IBM, AMCC, Arm, Atmel, Cirrus Logic, Sharp, Net Silicon, NXP, MIPS, IDT, NEC, Broadcom, LSI Logic, Lexra, Intel, AMD, Freescale. [1]
Target UUT VCC: The NX5300 supports target UUTs with an operating voltage range from 1.2 V to 5 V. [1]
Operating Temperature: The NX5300 has an operating temperature range of 0 °C to +85 °C. [1]
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The NX5300 includes 16 high-speed measurement channels. Each channel can measure logic levels, frequency, count events and perform a CRC check at rates up to 100 MHz. The NX5300 can also be used to record and playback serial vector format (SVF) files.
3.8 V (Max.) Voltage Input: .05V (Min.); 3.3V (Max.) Memory Depth Per Channel 128 MB Number of Channels 16 I/O, direction and configuration is dynamically configurable on a per vector and per channel basis 32 I/O, for vector rates <100 MHz Maximum Number Ch...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Threshold Accuracy ± 1% . Comparator Response Time 1uS max. Voltage Measurement All channels - 0 to 48V with 12mV resolution. Voltage Measurement Accuracy ± 1% of measured value. Environmental Operating Temperature 0 °C to +50 °C. Storage Temperature -20 °C to...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
The FPGA device supports up to four phase lock loops for clock synthesis, clock generation and for support of the I/O interface. An on-board 80 MHz oscillator is available for use with the FGPA device or alternatively, the PXI 10 MHz clock can be used as a clo...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
The FPGA device supports up to four phase lock loops for clock synthesis, clock generation and for support of the I/O interface. An on-board 80 MHz oscillator is available for use with the FGPA device or alternatively, the PXI 10 MHz clock can be used as a clo...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Our portfolio of 6U and 3U products offers industry leading features including PMU per pin, timing per pin, and high channel count - supporting a broad range of applications including semiconductor, board level, and LRU / system level test.
Comments The purpose of this function is to connect between a digital I/O channel, channels 4-7 only, to the PXI trigger lines. There are 56 Digital I/O channels, channel's direction control is set in groups of 4 channels, eg channels 0-3, channels 4-7, et...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Comments The purpose of this function is to connect between a digital I/O channel, channels 4-7 only, to the PXI trigger lines. There are 56 Digital I/O channels, channel's direction control is set in groups of 4 channels, eg channels 0-3, channels 4-7, et...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
The FPGA device supports up to four phase lock loops for clock synthesis, clock generation and for support of the I/O interface. An on-board 80 MHz oscillator is available for use with the FGPA device or alternatively, the PXI 10 MHz clock can be used as a clo...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...
Comments The purpose of this function is to connect between a digital I/O channel, channels 4-7 only, to the PXI trigger lines. There are 56 Digital I/O channels, channel's direction control is set in groups of 4 channels, eg channels 0-3, channels 4-7, et...
Direction is configurable on a per pin basis Disconnect on a per bank basis Protection Overvoltage: -0.5 V to 7.0 V (input) Short circuit: up to 8 outputs may be shorted at a time Connector (4) SCSI III, VHDCI type, 68 pin female Expansion Board Interface Boar...