Maximum rated execution speed with no wait statusġ6 bits of general-purpose I/O lines each line can be configured as input or output. Other styles available by special request
#Navitel nx5100 series#
NX5000 Series Specifications Boot ROM Path
#Navitel nx5100 pdf#
The available virtual panel can be used to interactively monitor and control the instrument from a window that displays the instrument's current settings and measurements.Īn On-Line help file and PDF User's Guide provides documentation that includes instructions for installing, using and programming the board. Various interface files provide access to the DLL from programming tools and languages such as ATEasy, LabVIEW, C/C++, Microsoft Visual Basic®, Delphi, and more. Programming and SoftwareThe board is supplied with a 32-bit DLL driver. A built-in macro language supports easy development of the complex test procedures without the need to learn a programming language.
Higher-level functions can also be executed with a single command.
#Navitel nx5100 windows#
A PASS or FAIL message can be displayed or further instructions to the operator can be issued, pending the result of each node test.įront Panel WindowA Windows GUI is included with built-in functions such as Memory Read/Write, I/O Read/Write, Memory Test, etc. Selecting a node test automatically invokes the correct stimulus, captures the results and compares them against the reference library. A powerful node test system allows known good responses from a reference UUT to be stored in a library for immediate comparison against the board under test. Logic ProbeThe logic probe is available to probe UUT nodes beyond the kernel. Additionally, basic diagnostics are included to aid in troubleshooting a dead kernel. No assembly language is required to support the basic functions of the ROM emulation card which include Read, Write, RAM test, ROM CHECKSUM, Fill, Copy, and Move functions. The controlling link is transparent to the user. ROM emulation uses a high level language that enables the user to focus on development of the test procedure (rather than on learning new opcodes of the tested CPU) allowing rapid transition from one test program development to another with minimum learning time. Synchronization with the UUT is automatic and requires no additional hardware or connections. The emulator takes control of the UUT by resetting the processor and, under the test program’s control (monitor program), exercises all functions on the board. Processors from 8 to 32 bits can be controlled with one to four pods (even the most advanced CPUs such as the Intel Pentium generally use only an eight-bit boot path). Each pod handles eight bits of the data bus. A microprocessor-based board is tested by replacing the boot ROMs on the Unit Under Test (UUT) with memory emulation pods. ROM emulation has emerged as the technique of choice for microprocessor test and diagnostic applications. GTXI Chassis, Controllers and InstrumentationĪrchitectureROM emulation is a powerful and versatile method of microprocessor testing.All GPIB Instrumentation Replacements Products.Power Supply Mainframe and Modules Instrumentation.D/A Converters and Precision DC Source Instrumentation.A/D Converters, Multi-function Instrumentation.