Datasheet - 2020.
SSG5040X Features and Benefits SSG5060X Frequency up to 4 GHz/6 GHz 0.001 Hz frequency setting resolution SSG5040X-V Maximum output power up to +26 dBm (typ.) SSG5060X-V Phase Noise: -120 dBc/ Hz @ 1 GHz, 20 kHz offset (typ.
Model and Main index Model SSG5040X SSG5060X SSG5040X-V Frequency Range CW MODE 9 kHz-4 GHz CW MODE 9 kHz-6 GHz SSG5060X-V CW MODE 9 kHz-4 GHz CW MODE 9 kHz- 6 GHz IQ MODE 10 MHz-4 GHz IQ MODE 10 MHz- 6 GHz Frequency Resolution 0.001 Hz Amplitude Resolution 0.01 dB Phase noise -120 dBc/Hz @1 GHz, offset 20 kHz (typ.
Custom mode can generate IQ modulated signals such as QAM, PSK, ASK, FSK, sample rate up to 120 Msps Multi-tone mode to output multi-tone signal ARB mode to build and replay waveform sequences ARB mode to play back digital communication standard waveform files 3GPP WCDMA TM1-64DPCH ACPR 3GPP WCDMA TM1-64DPCH EVM
ARB mode can be used to marker label symbols of the waveform files and simultaneously output a pulse from the IQ_Event interface. Perfect for synchronize another device.
SPECIFICATIONS Specifications are valid under the following condition: The instrument is within the calibration period, has been stored between 0 and 50℃ for at least 2 hours prior to use, and has been powered on and warmed up for at least 40 minutes. The specifications include the measurement uncertainty, unless otherwise noted. Specifications: All products are guaranteed to meet published specifications when operating temperatures from 5 to 45℃, unless otherwise noted. Typical (typ.
Frequency Reference Reference frequency 10.000000 MHz Initial calibration accuracy 0.2 ppm Temperature stability 1 ppm/year, 0℃ ~50℃ Frequency aging rate 0.5 ppm/first year, 3.
Level characteristics ALC modes The SSG5000X series offer three ALC modes: ALC STATE AUTO: The best suited ALC mode is set automatically. ALC STATE ON: The level control loop is closed. This mode is suitable for CW, FM and PM. ALC STATE SAMPLE & HOLD (S&H): At every frequency and level change, the level control loop is closed about 3 ms and the level control voltage is sampled. The level control voltage is the clamped.
Level setting Level setting time Level deviation <0.
Maximum output power versus frequency, f 1 MHz Measured level error versus frequency, Level = +20 dBm Measured level error versus frequency, Level = 0 dBm Maximum output power versus frequency, f 1 MHz Measured level error versus frequency, Level = +13 dBm Measured level error versus frequency, Level =-32 dBm
Measured level error versus frequency, Level = -77 dBm Measured level error versus frequency, Level = -107 dBm Measured level error versus frequency, Level = -120 dBm Spectral purity Harmonics Sub harmonics CW mod, 1 MHz f 6 GHz, Level +13 dBm CW mod, 1 MHz f 6 GHz, offset 10 kHz Level Non-harmonics 1 MHz f f +13 dBm -65 dBc 4 GHz CW mod, offset 10 kHz, Level 4 GHz -48 dBc +13 dBm CW mod, offset 10 kHz, Level -30 dBc +13 dBm 6 GHz -56 dBc(typ.
Measured harmonics versus carrier frequency at level +13 dBm Measured phase noise Internal modulation generator (LF) Waveforms Sine wave, square wave, saw-tooth, triangle, DC Sine wave 0.1 Hz-1 MHz [2] Square wave, triangle, saw-tooth 0.1 Hz-20 kHz Frequency range Resolution of frequency setting 0.01 Hz Frequency error Similar with RF source Frequency response Sine wave 0.3 dB Setting range Level Offset Offset resolution 0.
LF frequency sweep Operating mode Digital sweep in discrete steps Step spacing Linear, logarithmic Sweep shape Saw-tooth, triangle Sweep direction Up, down Sweep range 0.01 Hz-1 MHz Trigger mode Auto, keyboard, external connector, bus Trigger slope Positive, negative Dwell time setting range 1 ms- 500 s Dwell time setting resolution 0.
Frequency modulation Modulation source Internal, external, internal +external Maximum deviation N*1 MHz (typ.) Resolution 0.1% of set deviation or 1 Hz, whichever is larger FM deviation error Fmod =1 kHz, internal (2% of setting + 20 Hz) FM distortion Fmod=1kHz, deviation=N*1 MHz 0.5% (nom.) Modulation frequency response 10 Hz-100 kHz 3 dB (nom.) Phase modulation Modulation source Internal, external, internal + external Maximum deviation N*5 rad Resolution 0.1% of set deviation or 0.
Setting range 20 ns-300 s Resolution of setting 10 ns #2 Width Trigger modes Auto, keyboard, external trigger, external gate trigger, bus Trig polarity Normal, inverse (used in external gate trigger mode) Trigger Slope Positive, negative (used in external trigger mode) External trigger delay 140 ns-300 s External trigger delay resolution of setting 10 ns Pulse train generator (SSG5000X-PT) Number of pulses 1-2047 Number of repetitions per pulse 1 - 65535 Pulse on time and off time setting
Vector Modulation Specification IQ modulation external inputs Bandwidth Base Band I or Q 100 MHz, nominal RF(I+Q) 200 MHz, nominal I 2 Q2 0.5Vrms 50 Ω Full scale input drive (I+Q) Internal I/Q baseband generator adjustment I/Q offset ± 50 % I/Q gain ± 4 dB Quadrature angle adjustment ±10° I/Q output 50 Ω nominal per output Impedance 100 Ω difference output Maximum voltage per output 0.5 V peak-to-peak with sine wave Bandwidth(I,Q) Baseband (I or Q) 37.
Continuous Free run, trigger and run, reset and run Single NO retrigger, buffered trigger, restart on trigger Gated Negative polarity or positive polarity Segment advanced Single or continuous Modes Trigger latency 83 ns+8 sample clock period, nominal 83 ns+0.8 us+8 sample clock period, nominal Trigger accuracy 10 ns Marker polarity Negative, positive Number of Markers 4 Markers RF blanking/Burst On/Off ratio 70 dBc(typ.
3GPP WCDMA distortion performance Power level ≤ 4 dBm Offset Configuration Frequency 1DPCH,1 carrier 1800 to 2200 MHz spec Adjacent (5MHz) -60 dBc Adjacent (10MHz) -62 dBc Adjacent (5MHz) Test mode 1 with 64 DPCH ,1 carrier Adjacent (10MHz) -60 dBc 1800 to 2200 MHz -62 dBc 3GPP LTE-FDD distortion performance Offset Adjacent (10MHz) Adjacent (20MHz) Configuration Frequency 10 MHz E-TM1.1 QPSK 1800 to 2200 MHz Level 4 dBm -56 dBc (typ.) -60 dBc (typ.
Frequency 1800 to 2200 MHz 1800 to 2200 MHz 800 to 900 MHz 1800 to 1900 MHz EVM power level EVM 800 to 900 MHz 1800 to 1900 MHz 800 to 900 MHz 1800 to 1900 MHz 4 dBm 1.2 % 0.5 % 1.3 % 1.3 % 1% EVM performance Modulation type QPSK 16 QAM QPSK 16 QAM 4 Msps (root-Nyquist filter α=0.
Connectors Front panel connectors Impedance 50 Ω Connector N female Impedance 50 Ω Connector BNC female Impedance 100 kΩ Connector BNC female Active trigger voltage 5 V TTL Impedance High impedance Connector BNC female Impedance Input: High impedance Output: 50 Ω Connector BNC Input/output voltage CMOS 3.
Impedance 50 Ω Connector BNC-female Impedance 50 Ω Connector BNC-female Impedance 50 Ω Connector BNC-female Impedance High impedance Connector BNC-female Input voltage range CMOS 3.3V Impedance 50 Ω Connector BNC-female Output voltage range CMOS 3.3V I- output Q+ output Q- output PATTERN_TRIG IQ_ EVENT Communication Interface USB host USB-A 2.0 USB device USB-B 2.
General Specification Display TFT LCD, RGB (800*480), 5inch capacitive touch screen Storage Internal (Flash) 4 G Byte, external (USB storage device) Source Input voltage range (AC) 100 V~240 V (±10%) AC frequency Supply 100 V to 240 V, 50/60 Hz; Supply 100 V to 120 V, 400 Hz Power consumption 75 W with all Function working Temperature Working temperature 0 ℃ to 50 ℃, Storage temperature -20 ℃ to 70 ℃ Humidity 0 ℃ to 30 ℃, 95 % relative humidity; 30 ℃ to 50 ℃, 75 % relative humidity Dimensions W×H
Ordering Information Product Description SSG5000X Signal Generator Order Number Analog Signal Generator 9 kHz~4 GHz SSG5040X Analog Signal Generator 9 kHz~6 GHz SSG5060X Vector Signal Generator 10 MHz~4 GHz SSG5040X-V Vector Signal Generator 10 MHz~6 GHz SSG5060X-V Product code Standard configurations Quick start, an USB cable, calibration certificate, power cord Pulse train generator SSG5000X-PT Rack mount kit SSG-RMK USB-GPIB adapter USB-GPIB Upgrade 4 GHz to 6 GHz SSG5000X_F60 Option