文件列表:

ICETEK-VC5416-EDULab\ICETEK-VC5416-A.gel (44, 2003-09-23)
ICETEK-VC5416-EDULab\icetek.cfg (811, 2003-12-08)
ICETEK-VC5416-EDULab\ICETEKEMUReset.bat (52, 2004-09-01)
ICETEK-VC5416-EDULab\read me.txt (21, 2005-08-11)
ICETEK-VC5416-EDULab\LAB0101-USECCS\cc_build_Debug.log (135, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0101-USECCS\Debug.lkf (400, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0101-USECCS\Debug.lkv (400, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0101-USECCS\Sine2.dat (8017, 1999-10-29)
ICETEK-VC5416-EDULab\LAB0101-USECCS\volume.C (1822, 2005-06-23)
ICETEK-VC5416-EDULab\LAB0101-USECCS\volume.cmd (370, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0101-USECCS\volume.H (624, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0101-USECCS\Volume.paf (1442, 2005-06-23)
ICETEK-VC5416-EDULab\LAB0101-USECCS\Volume.pjt (940, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\cc_build_Debug.log (135, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\CProgram.c (647, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\CProgram.cmd (214, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\CProgram.paf (939, 2005-06-23)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\CProgram.pjt (903, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\Debug.lkf (356, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0102-CPROGRAM\Debug.lkv (356, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0103-ASM\cc_build_Debug.log (348, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0103-ASM\Debug.lkf (337, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0103-ASM\Debug.lkv (337, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0103-ASM\Tasm.asm (1081, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0103-ASM\TASM.cmd (368, 2003-09-15)
ICETEK-VC5416-EDULab\LAB0103-ASM\TASM.paf (903, 2005-06-23)
ICETEK-VC5416-EDULab\LAB0103-ASM\TASM.pjt (865, 2005-06-07)
ICETEK-VC5416-EDULab\LAB0104-CASM\add.asm (1263, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0104-CASM\add.c (45, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0104-CASM\CASM.paf (913, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0104-CASM\CASM.pjt (872, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0104-CASM\cc_build_Debug.log (478, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0104-CASM\CProgram.asm (1410, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0104-CASM\CProgram.c (709, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0104-CASM\CProgram.cmd (382, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0104-CASM\Debug.lkf (302, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0104-CASM\Debug.lkv (302, 2005-07-28)
ICETEK-VC5416-EDULab\LAB0201-MEMORY\cc_build_Debug.log (489, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0201-MEMORY\Debug.lkf (346, 2005-06-08)
ICETEK-VC5416-EDULab\LAB0201-MEMORY\Debug.lkv (346, 2005-06-08)
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SweepGen - An Audio Sweep Generator - David J Taylor SweepGen turns a PC into an Audio Oscillator and Sweep Generator which can be used for testing audio or educational purposes. In conjunction with audio test instruments, you can make frequency response plots. SweepGen uses the sound card in your PC to produce sinewaves that are mathematically correct almost to CD quality, indeed it's more likely that the quality of your PC sound card will be the limiting factor rather than the code in SweepGen. If you are interested in programming the sound hardware at a low level under Windows, you may find SweepGen's source code helpful in understanding the programming techniques involved. Installation & Usage: Extract SweepGen.exe from the Zip file to a suitable location, and run it! To use the pink noise facility also requires the file pink.wav in the same folder as SweepGen.exe. SweepGen uses no other DLLs, or registry entries. You will be presented with a dialog box that is, I hope, self-explantory. The program source, and some extra HTML documentation are provided in other Zip files in the archive. Operating modes: SweepGen has six operating modes: fixed frequency (with no sweep), manual sweep, white and pink noise, a slow single sweep lasting about 45 seconds intended for recording onto tape for subsequent replay and analysis, and a fast sweep lasting about 0.75 seconds intended for use with an oscilloscope for direct analysis of a circuit or to show the effect of any tone controls on your audio board. The fixed frequency and noise modes produce a continuous output, with the noise actually being a sound lasting about 1.3 seconds that is repeated indefinitely, giving the impression of continuous noise. White noise has a uniform distribution of energy across the frequency range, whereas the pink noise decays uniformly at 3dB per octave, and therefore sounds more muffled. In the slow sweep mode, there is an option to momentarily mute the output around half-octave boundaries (e.g. from 255 to 257 Hz) so that you can determine the approximate frequency of any peak or trough without having to continually monitor the display. The frequency of the last marker is noted. In the fast sweep mode, there is a choice between a continuous or stepped change of frequency, the steps allowing easier discrimination on the 'scope. Also, there is a 3:1 duty cycle to allow the 'scope to retrace and retrigger. In both sweep modes, the sweep may be linear or logarithmic in frequency, with log being more suitable for examining a broad frequency response and linear more suitable for narrow band filters. In manual sweep mode there are two methods to alter the frequency. Method 1. Ensure that the Stop/Start button has the focus, and then use the Page Down and Page Up keys to control the direction and activation of the sweep. Because of the double-buffering used to keep the sound card busy, there will be a slight delay between releasing either key and the sweep stopping. Starting and stopping the generator with the Start/Stop button will ensure that it has the focus. This method suits someone who wishes to hold down a key for continuous, smooth frequency change. Method 2. Ensure the trackbar (slider-like control) has the focus. You can then either drag the slider, or use the Page Down/Page Up, or Down Arrow and Up Arrow keys to change frequency. This method is quicker if you wish to manually sweep a frequncy range looking for resonances. Because the TrackBar control can queue up several key presses to process at one time, you must "peck" at the keys for each change of frequency rather than holding them down continuously. With method 2, you can also uncheck the "Lock L + R frequencies" checkbox to obtain independent frequency control. Frequency ranges: You can program any frequency range you want into Sweep, but if you make the maximum less than the minimum, you'll only get one frequency! There is no check against programming a frequency in excess of 22.05KHz, so you can observe the effects of aliasing. For convenience, there are four preset frequency ranges called: wide: 20Hz .. 20KHz hf: 1KHz .. 15KHz speech: 300Hz .. 3KHz lf: 50Hz .. 1KHz Output levels: SweepGen has a choice of fixed output levels selectable from 0dB to -26dB in 1dB steps. There will be a brief delay between selecting a new output level and the actual output changing since, the internal sinewave lookup table has to be recomputed, the output buffers refilled, and sent to the Wave device. There is also a deliberate delay to avoid many quick changes being processed since this is aurally rather distracting. Output phase: There are three modes of output operation. Normally, both left and right channels are indentical, i.e. in-phase. Optionally, you can make the channels out-of-phase which can be useful for checking the relative phase of a pair of loudspeakers. If the two speakers are out of phase, there will be less bass output. The channels option allows you to hear this effect directly. The third output mode provides for independent control of channel amplitude. The program does not provide a mono-summed mode where two different frequencies at different amplitudes are fed equally to each channel. Release History: V2.0.0 1996 Jun 01 Version for 32-bit Delphi Add more output levels Allow for smooth or stepped fast sweep Improve generation to about 15-bit accuracy Release to public domain V2.0.2 1996 Dec 30 Add white noise option V2.0.4 1997 Jan 10 Add manual slow sweep controlled by PageUp & PageDown keys (Start button must have the focus) Add two more output levels Add octave markers V2.0.6 1997 Mar 09 Add TrackBar for manual frequency control Reversed interpretation of PageUp & PageDown keys V2.1.0 1997 May 03 Replace output level buttons by slider control Use 2-channel output buffer for all modes Allow independent Left and Right frequencies Allow in-phase, out-of-phase or independent channel levels Add HTML documentation V2.2.0 1997 May 31 Version for Delphi 3.0 Make sine table generator use symmetry for faster startup Change max_buffer_samples to allow 1.3 seconds of audio - this allows exactly 50ms per fast sweep segment Correct two truncated buffer writes at end of slow sweep Use array of pre-computed frequencies for slow sweep Add programmed sweep mode (experimental) Add ability to save sweeps as a file V2.2.2 1997 Oct 05 Version for Delphi 3.01 Don't progress programmed mode Add Pink noise mode Notes: The program is written for Borland's Delphi 3.01, and most source is included. You do not need access to Delphi 3.01 to run SweepGen, but you WILL need sound hardware on your PC capable of full CD sampling rate operation (i.e. 16-bit, mono, 44.1KHz - such as SoundBlaster 16 or later). If SweepGen cannot open that audio format it will complain. I have seen some cards sold as 16-bit that only actually offer 12-bit performance. The program runs on Windows 95 and Windows NT 4.0. To measure your sound card itself, you may also find it helpful to have a CD with a white-noise or frequency sweep source. Two I have discovered are: Denon, Audio Technical CD 38C39-7147, 1***4-5 (includes white noise, but perhaps not now available?) Soundcheck Productions, Sound Check Alan Parsons & Stephen Court, 1993 available as RS number 245-376, Soundcheck tel: UK +44 1753 833524 (pink noise plus many other signals and test tracks) You may also want a sound editing program that is rather more capable than the Sound Recorder included with Windows. David Johnston's Cool Edit is low cost and includes some spectral analysis capability. Contact sales@syntrillium.com or see their Web site for a demo copy. Acknowledgements: magyar@krusty.eaglequest.com suggested the markers and manual sweep mode (name lost) suggested the track bar frequency control Goran Hjalmarsson (and others) suggested the dual-channel output Reference: A book that I have found invaluable on digital audio is: The Art of Digital Audio, 2nd edition, 1994 John Watkinson Focal Press (an imprint of Butterworth-Heinemann Ltd) ISBN 0 240 51320 7 +-------------------------- SAFETY NOTICE ----------------------------+ | Playing a continuous tone at a high level can damage your amplifier,| | speakers, or hearing. Please exercise sensible precautions! | +---------------------------------------------------------------------+ Program Status & Distribution: This program is freeware and remains copyright of David J Taylor, Edinburgh, 1994-1997. This program is provided "as is", without any support. Whilst I cannot answer queries relating to the use of this program, I'd welcome any comments or suggestions for improvements you may have. Requests for distribution must be referred to the author, but will usually be granted if no commercial gain is involved. Contacting the author: E-mail: david.taylor@gecm.com 1997 October 06

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