본문 바로가기 주메뉴 바로가기

Product (제품소개)

PRODUCT

RSA5000 시리즈 스펙트럼 분석기

주파수 범위 1 Hz to 3, 6, 15, 26.5 GHz
레벨 범위 –157 dBm
위상잡음 –147 dBc
SFDR -80dBc
분석 대역폭 25, 40, 85, 125, 165 MHz

RSA5000B



업계를 선도하는 강력한 RSA5000B 실시간 스펙트럼 분석기를 사용하여 장치 및 구성 요소를 정밀하고 정확하게 시각화하고 특성화할 수 있습니다. 이 고급 스펙트럼 분석기는 다른 스펙트럼 분석기보다 훨씬 빠른 가상 신호에 대한 고성능 및 감도 측정을 수행하므로 기존 측정을 수행하고 신속하고 정확하며 성공적으로 문제를 해결할 수 있습니다.
언제든지 탁월한 RF 성능, 풍부한 기능 집합 및 쉽게 액세스할 수 있는 표준 컨트롤이 있는 RSA5000B를 사용할 수 있습니다. 고감도의 뛰어난 스위프 속도로 단 22초 만에 -110dBm/Hz의 노이즈 층으로 10GHz 범위의 스위프를 완료할 수 있으며 여러 추적, 마커 및 표준 측정이 항상 준비되어 있습니다.
 
모델 주파수 범위 실시간대역폭 100% POI의 최소 이벤트 기간 SFDR(표준) 정가
RSA5115B 1Hz - 15GHz 25MHz, 40MHz, 80MHz, 125MHz 및 165MHz 0.434μs -80dBc  
RSA5106B 1Hz - 6.2GHz 25MHz, 40MHz, 80MHz, 125MHz 및 165MHz 0.434μs -80dBc  
RSA5126B 1Hz - 26.5GHz 25MHz, 40MHz, 80MHz, 125MHz 및 165MHz 0.434μs -80dBc  
RSA5103B 1Hz - 3GHz 25MHz, 40MHz, 80MHz, 125MHz 및 165MHz 0.434μs -80dBc  

Specifications

All specifications are guaranteed unless noted otherwise. All specifications apply to all models unless noted otherwise.

Model overview
  RSA5103B RSA5106B RSA5115B RSA5126B
Frequency range 1 Hz - 3 GHz 1 Hz - 6.2 GHz 1 Hz - 15 GHz 1 Hz - 26.5 GHz
Real-time acquisition bandwidth 25 MHz, 40 MHz, 85 MHz, 125 MHz, 165 MHz
Minimum Event Duration for 100% POI at 100% amplitude 2.7 μs at 165 MHz BW (0.434 us, Opt. 300)
2.8 μs at 85 MHz BW (0.551 us, Opt. 300)
3.0 μs at 40 MHz BW (0.79 us, Opt. 300)
3.2 μs at 25 MHz BW (0.915 us, Opt. 300)
SFDR (typical) >75 dBc (25/40 MHz) >73 dBc (85/165 MHz) ≥ 80 dBc (Opts. B85HD, B125HD, B16xHD)
Trigger modes Free run, Triggered, FastFrame
Trigger types Power, Frequency mask, Frequency edge, DPX density, Runt, Time qualified
Frequency related
Reference frequency
Specification Standard Option PFR Conditions
Initial accuracy at cal ± 1 x 10  -6 ± 1 x 10  -7 After 10 minute warm-up
Aging per day 1 x 10  -8 1 x 10  -9 After 30 days of operation
First year aging (typical) 1 x 10  -6 7.5 x 10  -8 After 1 year of operation
Aging per 10 years   3 x 10  - 7 After 10 years of operation
Temperature drift 2 x 10  -6 1 x 10  -7 Cumulative error (temperature + aging, typical) 3 x 10  -6 4 x 10  -7 Within 10 years after calibration
Reference output level
External reference input frequency

External input must be within ± 1 x 10 -6(Std), ± 3 x 10 -7(Opt PFR) to stated input

External reference input frequency requirements
Spurious level on input must be < –80 dBc within 100 kHz offset to avoid on-screen spurs
Spurious
< –80 dBc within 100 kHz offset
Input level range
–10 dBm to +6 dBm
Center frequency setting resolution
0.1 Hz
Frequency marker readout accuracy

±(RE × MF + 0.001 × Span + 2) Hz

(RE = Reference frequency error)

(MF = Marker frequency (Hz))

Span accuracy
±0.3% of span (Auto mode)
Trigger related
Trigger event source
RF input, Trigger 1 (front panel), Trigger 2 (rear panel), Gated, Line
Trigger setting
Trigger combinatorial logic
Trigger 1 AND trigger 2 / gate may be defined as a trigger event
Trigger actions
Save acquisition and/or save picture on trigger
Power level trigger
Level range
Accuracy
For trigger levels >30 dB above noise floor, 10% to 90% of signal level
±0.5 dB
±1.5 dB
Trigger bandwidth range
At maximum acquisition bandwidth
Standard (Opt. B25)
4 kHz to 10 MHz + wide open
Opt. B40
4 kHz to 20 MHz + wide open
Opt. B85/B16x
11 kHz to 40 MHz + wide open
Trigger position timing uncertainty
25/40 MHz acquisition BW, 20 MHz trigger BW
Uncertainty = ±15 ns
25/40 MHz acquisition BW, Max Trigger BW
Uncertainty = ±12 ns
85/125/165 MHz acquisition BW, 60 MHz Trigger BW
Uncertainty = ±5 ns
85/125/165 MHz acquisition BW, Max Trigger BW
Uncertainty = ±4 ns
Trigger re-arm time, minimum (fast frame on)
10 MHz acquisition BW
≤25 μs
40 MHz acquisition BW
≤10 μs
85/125 MHz acquisition BW
≤5 μs
165 MHz acquisition BW
≤5 μs
Minimum event duration
25 MHz acquisition BW
25 ns
40 MHz acquisition BW
25 ns
85/125 MHz acquisition BW
6.2 ns
165 MHz acquisition BW
6.2 ns
External trigger 1
Level range
-2.5 V to +2.5 V
Level setting resolution
0.01 V
Trigger position timing uncertainty
50 Ω input impedance
>20 MHz to 40 MHz acquisition BW:
±20 ns
>40 MHz to 80 MHz acquisition BW:
±13.5 ns
>80 MHz to 165 MHz acquisition BW:
±11 ns
Input impedance
External trigger 2
Threshold voltage
Fixed, TTL
Input impedance
10 kΩ (nominal)
High, Low
Trigger output
Voltage
Output current <1 mA
High
>2.0 V
Low
<0.4 V
Frequency mask trigger
Mask shape
User defined
Mask point horizontal resolution
<0.12% of span
Level range
Level accuracy1
±(Channel response + 1.0 dB)
±(Channel response + 2.5 dB)

1For masks >30 dB above noise floor.

Span range
100 Hz to 25 MHz (Opt. B25)

100 Hz to 40 MHz (Opt. B40)

100 Hz to 85 MHz (Opt. B85, B85HD)

100 Hz to 125 MHz (Opt. B125, B125HD)

100 Hz to 165 MHz (Opt. B16x, B16xHD)

Trigger position uncertainty
Span = 25 MHz (Opt. B25)

±13 μs (RBW ≥ 300 kHz)

±7 μs (Opt. 09)

Span = 40 MHz (Opt. B40)

±13 μs (RBW ≥ 300 kHz)

±6 μs (Opt. 09)

Span = 85 MHz (Opt. B85)

±10 μs (RBW ≥ 1 MHz)

±3 μs (Opt. 09)

Span = 165 MHz (Opt. B16x)

±9 μs (RBW ≥ 1 MHz)

±3 μs (Opt. 09)

Minimum signal duration for 100% probability of trigger at 100% amplitude
Options
Frequency-Mask and DPX signal processing Minimum signal duration, 100% probability of intercept, Frequency-Mask and DPX density trigger (μs) 1
Span (MHz) RBW (kHz) FFT Length (points) Spectrums / sec Standard Opt. 09 
Full amplitude -3 dB Full amplitude -3 dB
165 MHz 20000  1024  390,625  15.5  15.4  2.7  2.6 
10000  1024  390,625  15.6  15.4  2.8  2.6 
1000  1024  390,625  17.8  15.7  5.0  2.9 
300  2048  195,313  23.4  16.3  13.1  6.1 
100  8192  48,828  44.5  23.4  44.5  23.4 
Product Options
RSA5103B   Real Time Signal Analyzer, 1 Hz to 3 GHz
RSA5106B   Real Time Signal Analyzer, 1 Hz to 6.2 GHz
RSA5115B   Real Time Signal Analyzer, 1 Hz to 15 GHz
RSA5126B   Real Time Signal Analyzer, 1 Hz to 26.5 GHz
  Opt. B25 25 MHz Acquisition Bandwidth (no-cost option)
  Opt. B40 40 MHz Acquisition Bandwidth
  Opt. B85 85 MHz Acquisition Bandwidth
  Opt. B125 125 MHz Acquisition Bandwidth
  Opt. B16x 165 MHz Acquisition Bandwidth
  Opt. B85HD 85 MHz Acquisition Bandwidth, High Dynamic Range
  Opt. B125HD 125 MHz Acquisition Bandwidth, High Dynamic Range
  Opt. B16xHD 165 MHz Acquisition Bandwidth, High Dynamic Range
  Opt. 300  High performance real time (Opt. 09 required)
  Opt. 09  Enhanced Real Time
  Opt. 10  AM/FM/PM Modulation and Audio Measurements (Opt. 300 required)
  Opt. 11  Phase Noise / Jitter Measurement
  Opt. 12  Settling Time (Frequency and Phase)
  Opt. 14  Noise Figure and Gain (Internal preamp recommended)
  Opt. 20  Pulse Measurements
  Opt. 21  General Purpose Modulation Analysis
  Opt. 22  Flexible OFDM Analysis
  Opt. 23  WLAN 802.11a/b/g/j/p measurement application
  Opt. 24  WLAN 802.11n measurement application (requires opt 23)
  Opt. 25  WLAN 802.11ac measurement application (requires opt 24)
  Opt. 26  APCO P25 measurement application
  Opt. 27  Bluetooth Basic LE Tx Measurements
  Opt. 28  LTE Downlink RF measurements
  Opt. 31  Bluetooth 5 Measurements (requires opt 27)
  Opt. 32  EMC pre-compliance and troubleshooting
  Opt. MAP Mapping and signal strength
  Opt. 50  Internal Preamp, 1 MHz to 3/6.2 GHz, RSA5103B/5106B only
  Opt. 51  Internal Preamp, 1 MHz to 15/26.5 GHz, RSA5115B/5126B only
  Opt. 53  Memory Extension, 4 GB Acquisition Memory Total
  Opt. 60  1 Removable SSD, incompatible with Opt. 61 
  Opt. 611 Internal HDD, incompatible with Opt. 60 (no cost option)
  Opt. 65  Digital I and Q outputs
  Opt. 66  Zero-span analog output
  Opt. 6566  Digital I and Q outputs and Zero-span analog output
  Opt. PFR Precision Frequency Reference
  Opt. 54  Signal Classification and Survey

1Must order either Opt. 60 or 61.