SRS Labs SR560 manual Filters

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OPERATION AND CONTROLS

common with chassis ground by connecting the "AMP GROUND" and "CHASSIS GROUND" banana jacks on the rear panel of the SR560. When connected to AC power, the chassis of the unit is always connected to the grounding conductor of the AC power cord. The inputs are protected to 100 VDC but the DC input should never exceed 10 Vp. The maximum DC input before overload is 1 V peak.

The COUPLING pushbutton selects the method of connecting the A and B inputs to the amplifier. The inputs can be AC (0.03 Hz - 3 dB) or DC-coupled, or the inputs to the amplifier can be internally grounded with the A and B input BNC’s left floating.This feature makes for simple offset nulling, particularly useful when operating the amplifier DC-coupled at high gains. Please refer to CALIBRATION AND REPAIR -- OFFSET ADJUSTMENT for information on the offset nulling procedure.

NOTE: When the coupling is set to AC, a

0.03Hz cutoff high-pass filter is always

engaged. All high-pass filter modes can still be selected while AC-coupled, but the 0.03 Hz filter will always be in, even if the filters are set to DC. Because one of the two filter sections is always used as a high pass when AC coupling is selected, low-pass filters are only available with a 6 dB / octave rolloff.

The INVERT pushbutton allows the user to invert the output of the instrument with respect to the input when operating with single-ended or differential inputs. The INVERT LED displays the output sense relative to the input for all SOURCE settings.

Filters

The SR560 contains two identical 1st-order R-C filters whose cutoff frequencies and topology (high-pass or low-pass) are controlled from the front panel. The maximum bandwidth of the instrument is 1

MHz. The filters in the FILTER CUTOFFS section can be configured in the following six ways:

i.high-pass filter at +12 dB / octave

ii.high-pass filter at +6 dB / octave

iii.high-pass filter at +6 dB / octave, and low-pass filter at -6 dB / octave (band-pass)

iv.low-pass filter at -6 dB / octave

v.low-pass filter at -12 dB / octave

vi.no filters in the signal path

The filter settings are controlled by the ROLLOFF, HIGH-PASS and LOW-PASS pushbuttons. Each time the ROLLOFF pushbutton is pressed the instrument configures the two R-C filters to conform to the progression shown above. The four ROLLOFF LED’s give a visual indication of the current filter configuration. For the HIGH-PASS filter the left pushbutton serves to decrease its cutoff frequency. The two pushbuttons for the LOW-PASS filter function in an analogous manner.

When the FILTER CUTOFFS section is configured solely as high-pass or low-pass (i, ii, iv and v ), the cutoff frequency is illuminated by one of sixteen LED’s in the range from 0.03 Hz to 1 MHz, and the slope of the rolloff is shown by one of the four ROLLOFF LED’s. When the filter section is configured as band-pass (iii), the cutoff frequencies are illuminated by two LED’s. The frequency setting on the left marks the cutoff for the high-pass filter, and the setting on the right is the cutoff for the low-pass filter. The two 6 dB / oct ROLLOFF LED’s are also illuminated. In this case the two cutoffs can be set to the same frequency to provide a narrow bandpass. When both filters are removed from the signal path (vi) all rolloff and cutoff frequency LED’s are extinguished from the FILTER CUTOFFS section and the DC LED is on.

NOTE: High pass filters are not available for the four highest frequency settings. See the note under Source: Coupling for

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Contents Model SR560 Page Table of Contents PCB SR560 Revision F 9/89 Schematics Calibration and RepairAppendix a Appendix BIntroduction and Setup Instrument OverviewPreparation for USE Accessories Furnished Repackaging for ShipmentUse in Biomedical Applications Environmental ConditionsPage Specifications SR560 LOW-NOISE Preamplifier Specifications ChartSpecifications Power Operation and ControlsFront Panel Operating Summary SourceFilters Gain Mode ResetGain OutputAC Power Input Amplifier Power OutputBattery Charger Rear Panel Operating SummaryBattery Care and Usage Battery CareBlanking Input RS-232 InterfaceAvoid Deep Discharge Configurable Filters and Gain Circuit DescriptionDifferential LOW-NOISE Front END Output StagesBattery Charger and PRE-REGULATORS Overload DetectionMicroprocessor Power Regulators Rear Panel InterfacesBatteries and P.E.M Front PanelOffset Adjustment Front END ReplacementCalibration and Repair CalibrationSR560 Offset Adjustment Procedure Battery ReplacementFuse Replacement Noise Contours Input Voltage Noise Dynamic ReserveMaximum Calibration and Repair Commands Appendix aRemote Programming IntroductionAppendix a Appendix B Noise Sources and CuresIntrinsic Noise Sources Non-Essential Noise SourcesCapacitive Coupling Inductive CouplingResistive Coupling or ‘Ground Loops’ MicrophonicsThermocouple Effect Appendix B SR560 Component Parts List Front Panel Parts ListMain Board Parts List 22U MIN 01U Axial 804 00225-548 Insl MTP5N05 SR560 Component Parts List SR560 Component Parts List PIN Mach SR566 Assy Adhes Tape Miscellaneous Parts List SR560 Component Parts List

SR560 specifications

SRS Labs SR560 is a cutting-edge audio enhancement technology that has gained recognition for its ability to deliver an immersive sound experience. Built upon years of research, the SR560 utilizes proprietary algorithms to achieve high-fidelity sound output while maintaining an incredibly dynamic range.

One of the most notable features of the SR560 is its adaptive audio processing, which adjusts sound dynamics based on the content being played. This means that whether one is listening to music, watching a movie, or playing video games, the sound quality is optimized in real-time to provide the best listening experience. The SR560 excels at enhancing dialogue clarity in films, ensuring that important audio elements are never lost amidst background sounds.

Another key characteristic of the SR560 is its support for multi-channel audio. With the rise of surround sound systems, the SR560 is designed to integrate seamlessly with 5.1 and 7.1 speaker setups. This ensures that users can enjoy a true surround sound experience, where each audio channel is processed independently to create a lifelike auditory environment. The SR560’s processing capabilities allow it to convert standard stereo audio into multi-channel output, enriching the listening experience for any audio format.

SRS Labs has equipped the SR560 with advanced bass optimization technology. This feature enhances low-frequency sound, providing deep, rich bass without distortion. Whether it’s the thumping beats of music or the rumble of action-packed movies, the SR560 ensures that users can experience the full spectrum of audio without compromising on quality.

Furthermore, the SR560 showcases state-of-the-art sound management features that provide users with customizable audio profiles. This allows users to tailor their audio experience according to personal preferences, whether they prefer a more balanced sound, enhanced bass, or boosted treble frequencies. The intuitive interface ensures that adjustments can be made effortlessly.

In conclusion, the SRS Labs SR560 stands out as a versatile audio enhancement technology that caters to the needs of various audio consumers. By combining adaptive processing, multi-channel support, bass optimization, and customizable profiles, the SR560 ensures a rich and immersive audio experience. As the demand for high-quality sound continues to rise, the SR560 is poised to remain a significant player in the evolution of audio technology.