Part # Description Part # Description 130 L-C meter 2467B ANALOG OSCILLOSCOPE 172 PROGRAMMABLE TEST INSTRUMENT 2467B 400MHZ 4CH ANALOG SCOPE 212 500 KHZ DUAL TRACE OSCILLOSCOPE 27120B EMI MEASUREMENT SYSTEM 214 500KHZ/ 2CH CRT STORAGE 370A PR
New Equipment | Test Equipment
Rohde & Schwarz SFU Broadcast Test System with options B10, B2, B3, B4, B6, B11, B30 & K1, K15, K20, K21, K22, K30, K35, K27, K40, K41, K42, K43, K60, K80, K191, K193, K199, K354, & DV-DVBH The R&S SFU is the all-in-one solution for broadcast and m
Used SMT Equipment | General Purpose Test & Measurement
Ando AQ6317C Optical Spectrum Analyzer. Passes self test - no option. Advanced for a wide range of applications, including light source evaluation, measurement of loss wavelength characteristics in optical devices, and waveform analysis of WDM (Wavel
Used SMT Equipment | In-Circuit Testers
Ando AQ6331 The Ando AQ6331 is a portable optical spectrum analyzer (OSA) with the high performance required for 50 GHz and 100 GHz DWDM network testing, in both the C and L bands. The AQ6331 is compact and has all the features required for DWDM s
Industry News | 2007-10-29 22:37:08.0
Agilent Technologies Inc. (NYSE: A) today announced that it will demonstrate its leadership offerings in military communications solutions at MILCOM 2007, including the following application areas: R&D, RF, operational test, networking, physical layer test, and internet security and monitoring.
Industry News | 2019-01-24 15:34:05.0
High performance programmable 2-channel 40-240MHz function/arbitrary generators create complex custom low distortion waveforms
Technical Library | 2020-07-08 20:05:59.0
There is a compelling need for functional testing of high-speed input/output signals on circuit boards ranging from 1 gigabit per second (Gbps) to several hundred Gbps. While manufacturing tests such as Automatic Optical Inspection (AOI) and In-Circuit Test (ICT) are useful in identifying catastrophic defects, most high-speed signals require more scrutiny for failure modes that arise due to high-speed conditions, such as jitter. Functional ATE is seldom fast enough to measure high-speed signals and interpret results automatically. Additionally, to measure these adverse effects it is necessary to have the tester connections very close to the unit under test (UUT) as lead wires connecting the instruments can distort the signal. The solution we describe here involves the use of a field programmable gate array (FPGA) to implement the test instrument called a synthetic instrument (SI). SIs can be designed using VHDL or Verilog descriptions and "synthesized" into an FPGA. A variety of general-purpose instruments, such as signal generators, voltmeters, waveform analyzers can thus be synthesized, but the FPGA approach need not be limited to instruments with traditional instrument equivalents. Rather, more complex and peculiar test functions that pertain to high-speed I/O applications, such as bit error rate tests, SerDes tests, even USB 3.0 (running at 5 Gbps) protocol tests can be programmed and synthesized within an FPGA. By using specific-purpose test mechanisms for high-speed I/O the test engineer can reduce test development time. The synthetic instruments as well as the tests themselves can find applications in several UUTs. In some cases, the same test can be reused without any alteration. For example, a USB 3.0 bus is ubiquitous, and a test aimed at fault detection and diagnoses can be used as part of the test of any UUT that uses this bus. Additionally, parts of the test set may be reused for testing another high-speed I/O. It is reasonable to utilize some of the test routines used in a USB 3.0 test, in the development of a USB 3.1 (running at 10 Gbps), even if the latter has substantial differences in protocol. Many of the SI developed for one protocol can be reused as is, while other SIs may need to undergo modifications before reuse. The modifications will likely take less time and effort than starting from scratch. This paper illustrates an example of high-speed I/O testing, generalizes failure modes that are likely to occur in high-speed I/O, and offers a strategy for testing them with SIs within FPGAs. This strategy offers several advantages besides reusability, including tester proximity to the UUT, test modularization, standardization approaching an ATE-agnostic test development process, overcoming physical limitations of general-purpose test instruments, and utilization of specific-purpose test instruments. Additionally, test instrument obsolescence can be overcome by upgrading to ever-faster and larger FPGAs without losing any previously developed design effort. With SIs and tests scalable and upward compatible, the test engineer need not start test development for high-speed I/O from scratch, which will substantially reduce time and effort.
Link:https://www.ascen.ltd/Products/mask_making_machine/ Automatic medical face mask making production machine to produce the finished face mask ,and to weld face mask by ultrasonic .From material feeding for produce face mask blank to welding the ea
Link:https://www.ascen.ltd/Products/mask_making_machine/ Automatic medical face mask making production machine to produce the finished face mask ,and to weld face mask by ultrasonic .From material feeding for produce face mask blank to welding the ea
