This is the low-cost successor to the extremely popular SRF04 detector. Design
for manufacture has allowed the price to come down with better features including
an LED status indicator that blinks when the sonar fires as well as a new single-wire
mode of operation. In most all other respects, this is a drop-in equivalent of the
SRF04. The range has also increased to 4 meters.
| Voltage |
- |
5v |
| Low Current |
- |
4mA Typ. |
| Frequency |
- |
40KHz |
| Max Range |
- |
4 m |
| Min Range |
- |
1 cm |
| Modes |
- |
Single pin
for trig/echo or 2 Pin SRF04 compatible. |
| Input Trigger |
- |
10uS Min.
TTL level pulse |
| Echo Pulse |
- |
Positive
TTL level signal, width proportional to range. |
| Small Size |
- |
43mm x 20mm
x 17mm height |
SRF05 - Ultra-Sonic Ranger
Technical Specification
(Copyright Robot-Electronics.co.uk)
Introduction
The SRF05 is an evolutionary step from the SRF04, and has been designed to
increase flexibility, increase range, and to reduce costs still further. As
such, the SRF05 is fully compatible with the SRF04. Range is increased from 3
meters to 4 meters. A new operating mode (tying the mode pin to ground) allows
the SRF05 to use a single pin for both trigger and echo, thereby saving valuable
pins on your controller. When the mode pin is left unconnected, the SRF05
operates with separate trigger and echo pins, like the SRF04. The SRF05 includes
a small delay before the echo pulse to give slower controllers such as the Basic
Stamp and Picaxe time to execute their pulse in commands.
Mode 1 - SRF04 compatible - Separate Trigger and Echo
This mode uses separate trigger and echo pins, and is the simplest mode to use.
All code examples for the SRF04 will work for the SRF05 in this mode. To use
this mode, just leave the mode pin unconnected - the SRF05 has an internal pull
up resistor on this pin.
Mode 2 - Single pin for both Trigger and Echo
This mode uses a single pin for both Trigger and Echo signals, and is designed
to save valuable pins on embedded controllers. To use this mode, connect the
mode pin to the 0v Ground pin. The echo signal will appear on the same pin as
the trigger signal. The SRF05 will not raise the echo line until 700uS after the
end of the trigger signal. You have that long to turn the trigger pin around and
make it an input and to have your pulse measuring code ready. The PULSIN command
found on many popular controllers does this automatically.
To use mode 2 with the Basic Stamp BS2, you simply use PULSOUT
and PULSIN on the same pin, like this:
SRF05 PIN 15
' use any pin for both trigger and echo
Range VAR Word
' define the 16 bit range variable
SRF05 = 0
' start with pin low
PULSOUT SRF05, 5 '
issue 10uS trigger pulse (5 x 2uS)
PULSIN SRF05, 1, Range ' measure echo time
Range = Range/29 '
convert to cm (divide by 74 for inches)
|
Calculating the Distance
The SRF05 Timing diagrams are shown above for each mode. You only need to
supply a short 10uS pulse to the trigger input to start the ranging. The SRF05
will send out an 8 cycle burst of ultrasound at 40khz and raise its echo line
high (or trigger line in mode 2). It then listens for an echo, and as soon as it
detects one it lowers the echo line again. The echo line is therefore a pulse
whose width is proportional to the distance to the object. By timing the pulse
it is possible to calculate the range in inches/centimeters or anything else. If
nothing is detected then the SRF05 will lower its echo line anyway after about
30mS.
The SRF04 provides an echo pulse proportional to distance. If the width of
the pulse is measured in uS, then dividing by 58 will give you the distance in
cm, or dividing by 148 will give the distance in inches. uS/58=cm or uS/148=inches.
The SRF05 can be triggered as fast as every 50mS, or 20 times each second.
You should wait 50ms before the next trigger, even if the SRF05 detects a close
object and the echo pulse is shorter. This is to ensure the ultrasonic "beep"
has faded away and will not cause a false echo on the next ranging.
The other set of 5 pins
The 5 pins marked "programming pins" are used once only during manufacture to
program the Flash memory on the PIC16F630 chip. The PIC16F630's programming pins
are also used for other functions on the SRF05, so make sure you don't connect
anything to these pins, or you will disrupt the modules operation.
Changing beam pattern and beam width
You can't! This is a question which crops up regularly, however there
is no easy way to reduce or change the beam width that I'm aware of. The beam
pattern of the SRF05 is conical with the width of the beam being a function of
the surface area of the transducers and is fixed. The beam pattern of the
transducers used on the SRF05, taken from the manufacturers data sheet, is shown
below.
*We are sorry, but for this product Warranty Voided on international
orders*