Spts ?, Trca ? i, j, k, Trcb ? i, j, k

Remote Programming

	and θ are also recorded at a single instant. Thus reading X,Y OR R,θ
	yields a coherent snapshot of the output signal. If X,Y,R and θ are all
	read, then the values of X,Y are recorded approximately 10µs apart from
	R,θ. Thus, the values of X and Y may not yield the exact values of R and
	θ from a single SNAP? query.
	The values of the Aux Inputs may have an uncertainty of up to 32µs. The
	frequency is computed only every other period or 40 ms, whichever is
	longer.
	The SNAP? command is a query only command. The SNAP? command
	is used to record various parameters simultaneously, not to transfer data
	quickly.
SPTS ? i	The SPTS? command queries the number of points stored in Trace i.
	The parameter i selects a trace (1, 2, 3 or 4) and is required. If Trace i is
	not stored, then 0 is returned. If the scan is reset, then 0 is returned.
	Remember, SPTS? returns N where N is the number of points - the
	points are numbered from 0 (oldest) to N-1 (most recent). The SPTS?i
	command can be sent at any time, even during a scan. This command is
	a query only command.
TRCA ? i, j, k	The TRCA? command queries the points stored in Trace i. The values
	are returned as ASCII floating point numbers with the units of the trace.
	Multiple points are separated by commas and the final point is followed
	by a terminator. For example, the response with two points might be
	"-1.234567e-009,+7.654321e-009,".
	The parameter i selects a trace (1, 2, 3 or 4) and is required. If Trace i is
	not stored, then an error occurs. Points are read from the buffer starting
	at bin j (j≥0). A total of k bins are read (k≥1). To read a single point, set
	k=1. Both j and k are required. If j+k exceeds the number of stored points
	(as returned by the SPTS? query), then an error occurs. Remember,
	SPTS? returns N where N is the total number of bins - the TRCA? com-
	mand numbers the bins from 0 (oldest) to N-1 (most recent).
TRCB ? i, j, k	The TRCB? command queries the points stored in Trace i. The values
	are returned as IEEE format binary floating point numbers (with the units
	of the trace). There are 4 bytes per point. Multiple points are not separat-
	ed by any delimiter. The bytes can be read directly into a floating point
	array (in most languages).
	Do not query the IFC (no command in progress) status bit after sending
	the TRCB command. This bit will not be set until the transfer is complete.
	When using the GPIB interface, EOI is sent with the final byte. The points
	must be read using a binary transfer (see your GPIB interface card soft-
	ware manual). Make sure that the software is configured to NOT termi-
	nate reading upon receipt of a CR or LF.
	When using the RS232 interface, the word length must be 8 bits. The
	points must be read as binary bytes (no checking for linefeeds, carriage
	returns or other control characters). Most serial interface drivers are
	designed for ASCII text only and will not work here. In addition, the data

6-24

SR850 specifications

The SRS Labs SR850 is a high-performance audio processor designed to enhance the listening experience across a variety of applications. With its advanced technologies, the SR850 delivers superior sound quality that is particularly noticeable in environments where audio clarity and fidelity are paramount. This device caters to audio professionals, audiophiles, and casual listeners who demand exceptional performance from their audio systems.

One of the standout features of the SR850 is its proprietary SRS 3D Audio technology. This innovative feature creates a more immersive soundstage, allowing users to experience audio as if they were in a live performance setting. By adding depth and dimension, it elevates the listening experience, making music, movies, and games far more engaging.

Additionally, the SR850 incorporates SRS dialog clarity technology, which enhances speech intelligibility in dialogues and vocals. This is particularly beneficial in film and television viewing, where dialogue can sometimes be drowned out by background music or sound effects. With dialog clarity, users can enjoy crystal-clear conversation tracks without adjusting volume levels continuously.

The device also supports various audio formats, ensuring compatibility with a broad range of media. It boasts inputs for both digital and analog sources, allowing connections to various devices such as TVs, laptops, gaming consoles, and more. The versatility of inputs makes the SR850 a convenient addition to any home entertainment system.

Another impressive characteristic of the SR850 is its compact and user-friendly design. The intuitive interface makes it easy for users to adjust settings to their preference, whether they are a novice or an audio expert. The device is equipped with programmable presets, enabling users to store their favorite sound profiles, making switching between settings quick and hassle-free.

Furthermore, the SR850 features advanced EQ capabilities, granting users the ability to tailor the audio output to their specific tastes. This personalized approach to sound adjustment enhances the overall experience, allowing users to get the most out of their audio content.

In summary, the SRS Labs SR850 is a sophisticated audio processor packed with features designed to significantly uplift sound quality and listening pleasure. With its cutting-edge technologies such as SRS 3D Audio and dialog clarity, an array of connectivity options, and customizable EQ settings, the SR850 stands out as an outstanding option for anyone looking to enhance their audio experience. Whether for professional use in sound engineering or personal enjoyment in home entertainment, the SR850 proves to be a valuable asset.

SRS Labs SR850 manual Spts ?, Trca ? i, j, k, Trcb ? i, j, k

Models: SR850

Remote Programming

SPTS ? i

TRCA ? i, j, k

TRCB ? i, j, k

SR850 specifications