News
Keysight Technologies Delivers High Speed Differential Probing Solution for DDR5/LPDDR5
Published: Dec 23,2019Keysight Technologies announced the MX0023A InfiniiMax RC, a new high speed differential probing solution for Double Data Rate 5 (DDR5) and Low Power Double Data Rate 5 (LPDDR5).
Keysight Establishes New Testing Lab in Malaysia
Keysight Technologies has opened a new Regulatory Test Laboratory in Penang, Malaysia to deliver accredited electromagne...
Keysight Launches New 5G Core Network Test Solution - LoadCore
Keysight Technologies announced LoadCore 5G Core (5GC) Testing software – and China Mobile Research Institute (CMRI) h...
As data rates of mobile bus systems increase, the edge speed of the signal gets faster, thus requiring higher bandwidth probe solutions. At the same time, many systems deploy a continuously variable termination mechanism, switching the termination impedance between low and high impedance, to save power consumption in devices. This requires a higher speed probing solution with high input impedance profile over wider frequency range for low probe loading. This is common signal behavior in high-speed mobile communication technologies typically deployed in DDR/LPDDR.
Keysight’s new MX0023A InfiniiMax RC probe provides high bandwidth and low loading, offering up to 25 GHz bandwidth and an RC input impedance profile for extremely low mid-band loading, which is necessary to address modern high-speed probing requirements. It also provides a wide variety of flexible connectivity solutions, covering today’s emerging signaling standards such as DDR5/LPDDR5 and other high-speed signal debug and validation test needs.
To ensure that Keysight Infiniium oscilloscope customers have access to the right probes and accessories for their applications, Keysight offers a wide selection of high-quality probes and accessories.
CTIMES loves to interact with the global technology related companies and individuals, you can deliver your products information or share industrial intelligence. Please email us to en@ctimes.com.tw
686 viewed