SNA5000A Series Vector Network Analyzer
■The SIGLENT SNA5000A series of Vector Network Analyzers have a frequency range of 9 kHz to 8.5 GHz, which support 2/4-ports scattering-parameter, differential-parameter, and time-domain parameter measurements. The SNA5000A series of VNAs are effective instrumentation for determining the Q-factor, bandwidth and insertion loss of a filter, They feature impedance conversion, movement of measurement plane, limit testing, ripple test, fixture simulation and adapter removal/insertion adjustments. The VNAs have five sweep types: Linear-Frequency mode, Log-Frequency mode, Power-Sweep mode, CW-Time mode and Segment-Sweep mode. The SNA5000A series VNAs also support scattering-parameter correction of SOLT, SOLR, TRL, Response and Enhanced Response for increased flexibility in R&D and manufacturing applications.
SNA5000A Series 、 SNA5000A 、 SNA5002A 、 SNA5012A 、 SNA5004A 、 SNA5014A |
|
|
|
Datasheet |
|
|
|
Please see the document for details |
|
|
|
|
|
|
|
English Chinese Chinese and English Japanese |
|
2021/08/03 |
|
|
|
DS09050_E01B |
|
2.4 MB |
- +1 Like
- Add to Favorites
Recommend
- NOVOSENSE Announced the New NSOPA Series of General-Purpose Operational Amplifiers for Automotive and Industrial Applications
- Snap-in Type Aluminum Electrolytic Capacitors RLA Series Offered A Capacitance Range of 600 to 2200µF for Home Appliances
- Nippon Chemi-Con Developed Snap-in Type Aluminum Electrolytic Capacitors RLB Series with High Ripple and RLA Series with Longer Life
- Nidec Develops CA Series Linear Vibration Motors with Smallest-class Diameters in the World
- NIPPON CHEMI-CON Snap-in Type KVA Series Capacitators is AEC-Q200 Compliant with Endurance up to 105℃ 2000hrs
- NIPPON CHEMI-CON Snap-in Type LVA Series Aluminum Capacitators, AEC-Q200 Compliant for OBC
- Nippon Chemi-Con Developed KWA Series Radial Lead Type Aluminum Electrolytic Capacitors Guaranteeing 5,000 hours at 105℃
- Nippon Chemi-Con Developed KLA Series Snap-in Type Aluminum Electrolytic Capacitors with High Ripple and High Temperature Resistance
All reproduced articles on this site are for the purpose of conveying more information and clearly indicate the source. If media or individuals who do not want to be reproduced can contact us, which will be deleted.