I have two points of confusion: 1. You show prices of $25 and $18, but only one part number (KMY 24)? What is the difference? 2. Since the KMY 24 is a Doppler device, it will not recognize an object that is NOT in motion, correct? Is this why you are using two devices? Thanks for the clarification.... Larry Woods > -----Original Message----- > From: pic microcontroller discussion list > [mailto:PICLIST@MITVMA.MIT.EDU]On Behalf Of Gordon Varney > Sent: Wednesday, August 25, 1999 1:15 PM > To: PICLIST@MITVMA.MIT.EDU > Subject: Re: Signal filtering through code > > > If you want something different, I don't know your cost restrictions, but > for $25.00 each and $18.00 in small qty. Siemens offers a 2.4 GHz Doppler > radar sensor, with antenna built in. (Part number KMY 24) A > complete sensor > that will determine distance and direction by monitoring 2 sensor outputs > with your A/D microcontroller. Up to 15 feet possible,and very small in > size. (1.125"x1.5"x.375" approx.) I use them there are great. The Marshal > distributor in Kansas City MO. has stock. > > Gordon Varney > > > ----- Original Message ----- > From: Dwornik, Sebastian > To: > Sent: Wednesday, August 25, 1999 1:08 PM > Subject: Signal filtering through code > > > > My current robotics project requires me to design and build an accurate > > and stable IR proximity detection sensor system. It should give feedback > > of objects up to 5 feet. My chosen tools are the PIC16F84, the > > LTC1298 12-bit ADC, and the VTR24F1 optosensor from EG&G. > > The sensor simply contains an IR LED and a photodarlington in a single > > package. > > > > My current solution involves simple noise filtering through code. The > > opto proximity method is through the use of intensity or signal > > strength, > > reflected off an object. > > > > Algorithm: > > Pulse HIGH! ; LED ON. > > Read ADC ; Result A = Signal + Noise > > > > Pulse LOW! ; LED OFF. > > Read ADC ; Result B = Noise > > > > SUB A-B ; Result C = (Signal+Noise) - (Noise) > > > > C = pure signal strength. > > > > This has proven to work well for distances up to 8 inches using an 8-bit > > ADC. This is the first time I'm trying to extend the range, with a more > > sensitive sensor and a 12-bit ADC. > > > > Is there a better algorithm of filtering which would provide greater > > results? A better sensor, or maybe a better method to the entire > > project. I have played with Sharps' GP2D02 module as well; and have > > gotten rather unsatisfactory results. If the current method cannot be > > improved upon, then my next step is to try one of those 40 khz > > Sharp IR modules. They won't give me proximity ranging, but > > maybe reliable object detection; and atleast that's a start. > > > > > > Sebastian >