ROHDE & SCHWARZ SML02 CALIBRATION and ROHDE & SCHWARZ SML02 REPAIR
 
A calibration by Custom-Cal is performed by engineers with extensive OEM experience. We have the expertise and the necessary standards to perform the ROHDE & SCHWARZ SML02 Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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   ROHDE & SCHWARZ SML02 (1090.3000.12)   Description / Specification:    
ROHDE & SCHWARZ SML02 RF Signal Generator

The Rohde & Schwarz SML02 RF Signal Generator has an AF generator covering frequencies from 0.1 Hz to 1 MHz. Its signal can also be brought out for external applications at a separate connector. For two-tone modulation, you can operate the AF generator together with an external signal source. Option SML-B3 upgrades the R & S SML 02 for pulse modulation. In addition to a high-end pulse modulator, this option includes a pulse generator with enhanced features. All modulation modes are possible simultaneously. Only frequency and phase modulation exclude each other because they share circuitry in SML. You can set frequency with crystal resolution of 0.1 Hz. With option SML-B1 (OCXO reference oscillator) frequency accuracy fulfills even the most exacting requirements. The R&S SML 02 is fitted with an electronic attenuator to standard. Any number of levels may be set without causing wear, and setting times of 5 ms are typical. Using special frequency response correction, level error of <±0.5 dB up to 2 GHz and <±0.9 dB up to 3.3 GHz is obtained. With the R&S SML 02 the RF signal is generated by frequency division, resulting in excellent figures for SSB phase noise. Thanks to their low spurious FM of typically 0.5 Hz (at 1 GHz, 0.3 kHz to 3 kHz weighting bandwidth to CCITT), minimal SSB phase noise and high spurious suppression, these signal generators are ideal for all in-channel measurements on receivers. Specifications. Frequency range: 9 kHz to 2.2 GHz. Resolution: 0.1 Hz. Setting time: <10 ms. Harmonics: <–30 dBc. Subharmonics: none (f =1.1 GHz), <–50 dBc (f >1.1 GHz). Spurious: <–70 dBc (f =1.1 GHz), <–64 dBc (>1.1 GHz to 2.2 GHz), <–58 dBc (f >2.2 GHz). SSB phase noise: <–122 dBc (f = 1 GHz, 20 kHz carrier offset, 1 Hz bandwidth). Level: –140 dBm to +13 dBm (f >5 MHz to 3 GHz), –140 dBm to +11 dBm (f =5 MHz, f >3 GHz). Resolution: 0.1 dB. AM (3 dB bandwidth): 0 to 100 % (DC to 50 kHz). FM (3 dB bandwidth): deviation up to 4 MHz (DC to 500 kHz). phi M (3 dB bandwidth): deviation up to 40 rad (DC to 100 kHz), deviation up to 8 rad (DC to 500 kHz). AF generator: 0.1 Hz to 1 MHz.



 

Standard Calibration $475.00 *
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*This is a Web introductory price for one calibration of the ROHDE & SCHWARZ SML02. Price does not in most cases include measurement performance data. Pricing does include NIST traceable calibration and issue of a calibration certificate and calibration label. Pricing may vary slightly due to volume and location of laboratory supporting calibration. Volume pricing may apply. On-site fees may apply depending on logistics, location and volume of work to be completed during the visit.


Related Bench Equipment Terms and Definitions. For a complete list go to our  Terms and Definitions Page.

Channel Bandwidth
Channel Bandwidth is the bandwidth over which power is measured. This is usually the bandwidth in which almost all of the power of a signal is contained.

Jitter
Jitter in technical terms is the deviation in or displacement of some aspect of the pulses in a high-frequency digital signal. Jitter is the time variation of a periodic signal in electronics and telecommunications, often in relation to a reference clock source. Jitter may be observed in characteristics such as the frequency of successive pulses, the signal amplitude, or phase of periodic signals. Jitter is a significant, and usually undesired, factor in the design of almost all communications links (e.g., USB, PCI-e, SATA, OC-48). In clock recovery applications it is called timing jitter.

Overshoot
Overshoot is the distortion that follows a major transition; the difference between the peak power point and the pulse-top amplitude computed as a percentage of the pulse-top amplitude.

Rise Time
Rise time refers to the time required for a signal to change from a specified low value to a specified high value, usually 10 and 90 percent of pulse-top amplitude (vertical display is linear power).

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