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Switches and Sensors

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Chapter 8 Sensor Switches and Sensors For integrated control systems WUHAN UNIVERSITY OF TECHNOLOGY LOGISTICS ENG. DEPT. – PowerPoint PPT presentation

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Title: Switches and Sensors


1
Switches and Sensors
?????????? ??? Chapter 8 Sensor
  • For integrated control systems

WUHAN UNIVERSITY OF TECHNOLOGY LOGISTICS ENG.
DEPT. ?????? ??????
2
Contents
?????????? ??? Chapter 8 Sensor
  • Cable capacitance
  • Introduction
  • Vacuum electric switch
  • Magnetic cylinders
  • Reed switch principle
  • Vacuum electronic switch
  • Sensor principle
  • QM/45/ range
  • QM/33,34,134 range
  • M/40,41,42 range
  • Inductive proximity sensors

Click the section to advance directly to it
3
Introduction
?????????? ??? Chapter 8 Sensor
  • Typical electro-pneumatic systems consist of
  • magnetic cylinders and solenoid valves for
    dynamic power
  • reed switches and sensors for feedback
  • electronic logic for control
  • Reed switches and solid state magnetic sensors
    are fitted to cylinders to feedback particular
    positions of the piston
  • Solid state proximity sensors can be used to
    replace limit switches, for detecting the
    position of mechanisms or other moving parts
  • Reed switches and solid state sensors are small,
    fast, easy to fit and adjust. They simplify
    installation on to the machine application

4
Magnetic cylinders
?????????? ??? Chapter 8 Sensor
  • Magnetic cylinders have a band of magnetic
    material inset around the circumference of the
    piston
  • The polarity is in parallel with the axis of the
    cylinder
  • The barrel is made of non ferrous material
  • By placing reed switches along the outside of the
    cylinder, signals can be given at the extreme and
    intermediate positions of stroke

Click the illustration to start and stop animation
5
Reed switch principle
?????????? ??? Chapter 8 Sensor
  • A basic reed switch consists of a small glass
    tube containing soft iron contact reeds normally
    sprung open
  • When a magnetic field is in range the reeds will
    become magnetic
  • The ends will be of opposite polarity and pull
    themselves together

Click the illustration to start and stop animation
6
Magnetic sensor principle
?????????? ??? Chapter 8 Sensor
  • In the presence of a magnetic field the
    magnetoresistive sensor has a lower resistance.
    This causes current to be drawn from the base of
    the transistor turning it on
  • The circuit incorporates l.e.d., reverse polarity
    protection diodes and suppression diode for an
    inductive load

V
load
0V
sensor
7
Reed switches and sensor
?????????? ??? Chapter 8 Sensor
  • Slim cylindrical housing
  • PVC cable in 2 or 5 metre lengths
  • Optional very flexible polyurethane cable
  • With or without l.e.d. indicator
  • Range of four reed switches and one solid state
    sensor

8
Reed switches
?????????? ??? Chapter 8 Sensor
  • Basic reed switch
  • Shown connected to a relay or solenoid coil with
    diode suppression for d.c. application
  • 10 to 30V a.c./d.c.
  • Maximum switching power 10 W/VA

9
Reed switches
?????????? ??? Chapter 8 Sensor
  • Reed switch with l.e.d. indicator
  • Three wires emulating p.n.p. sensor
  • Current sourced on the black wire to the coil
  • Resistor protects l.e.d. from over voltage

10
Reed switches
?????????? ??? Chapter 8 Sensor
  • Reed switch with l.e.d. indicator and two wires
    only
  • Current sourced on the black wire to the coil
  • Zener diode provides small voltage drop to turn
    on l.e.d.
  • 10 to 240V a.c./170V d.c. 10 W/VA maximum
  • Shown with VDR for suppression a.c. or d.c.

11
Reed switches
?????????? ??? Chapter 8 Sensor
  • Reed switch with l.e.d. indicator
  • Three wires emulating n.p.n. sensor
  • Current sunk on the blue wire from the load to 0V
  • Resistor protects l.e.d. from over voltage

12
Solid state switches
?????????? ??? Chapter 8 Sensor
  • Solid state magnetically operated p.n.p. output
  • Used for applications where vibration levels are
    unsuitable for reed switches
  • Magnetoresistive sensor element
  • Sensor on l.e.d. indicator
  • 10 to 30 V d.c. 200mA maximum

13
Reed switches and sensors
?????????? ??? Chapter 8 Sensor
  • Neat cylindrical housing with fixed or plug-in
    cable
  • Straight or 90o plug-in connector cables
  • Optional very flexible polyurethane cable or
    high temperature (150oC) silicon cable
  • With or without l.e.d. indicator
  • Wide range of reed switches and solid state
    sensors

14
Reed switches
?????????? ??? Chapter 8 Sensor
  • Plain reed switch
  • Plain change-over reed switch
  • Three wire reed switch with l.e.d., emulating
    p.n.p. sensor and plug-in cable
  • Three wire reed switch with l.e.d., emulating
    n.p.n. sensor
  • Two wire reed switch with l.e.d.

15
Solid state sensors
?????????? ??? Chapter 8 Sensor
  • Output p.n.p. fixed cable
  • Output p.n.p. plug-in cable
  • Output n.p.n. fixed cable
  • Output n.p.n. plug-in cable
  • Pulse stretcher. Output p.n.p. fixed cable. When
    operated and released output will remain on for a
    further 30 ms approximately. Suitable for part
    stroke position on fast operating cylinders

QM/134
QM/134/P
QM/134/N
1
QM/134/N/P
QM/134/X
black
0V
Load
16
Reed switches and sensors
?????????? ??? Chapter 8 Sensor
  • Low profile with dove tail slide for cylinders
    with integral track in extruded body
  • Screw tightening
  • Fixed cable or plug-in connector cables straight
    or 90o
  • With or without l.e.d.

17
Reed switches and sensors
?????????? ??? Chapter 8 Sensor
  • Low profile with dove tail slide for cylinders
    with integral track in extruded body
  • Screw tightening
  • Fixed cable or plug-in connector cables straight
    or 90o
  • With or without l.e.d.

18
Reed switches
?????????? ??? Chapter 8 Sensor
  • Two wire with l.e.d. 10 to 240V a.c./170V d.c.
  • With high temperature cable
  • With very flexible polyurethane cable
  • Two wire with l.e.d. and plug in cable 10 to 60V
    a.c./74 d.c.
  • Change-over contacts without l.e.d.

M/40
TM/40
M/40//PU
M/40/P
M/40/C
19
Solid state magnetic switches
?????????? ??? Chapter 8 Sensor
  • Output n.p.n. 10 to 30V d.c. 200 mA maximum
  • Output p.n.p. 10 to 30V d.c. 200 mA maximum
  • Output p.n.p. with very flexible polyurethane
    cable
  • Output p.n.p. with plug-in cable

20
Inductive proximity sensors
?????????? ??? Chapter 8 Sensor
  • Sense the presence of metal near the tip
  • Used as a limit switch for mechanical parts
  • Depending on type
  • Range 0.8 to 2 mm
  • Switching frequency 500 to 2000 Hz
  • With or without l.e.d.
  • 10 to 30 or 6 to 30 V d.c.
  • Normally closed or normally open p.n.p. output
  • output

21
Cable capacitance
?????????? ??? Chapter 8 Sensor
  • Long leads above the standard cable length become
    a long thin capacitor (equivalent circuit)
  • Closing the switch shorts the capacitor, the
    instant high current overloads and damages the
    switch contacts
  • Fit an inductor (470µH) close to the switch. This
    damps the surge but has a low steady state
    resistance

22
Vacuum electric switch
?????????? ??? Chapter 8 Sensor
  • Switches contacts at a vacuum set point
  • Adjustable between zero and 0.8 bar absolute
  • Normally open and normally closed versions
  • Up to 250V a.c./d.c. 2A max
  • Repeatability or - 0.1 bar
  • Reset differential 0.2 bar

23
Vacuum solid state switch
?????????? ??? Chapter 8 Sensor
  • Analogue output 1 to 5 V proportional to vacuum
  • Solid state switched output at vacuum set point
  • Adjustable reset hysteresis
  • Adjustable from zero to 1bar absolute
  • Output n.p.n. or p.n.p. vesions

24
?????????? ??? Chapter 8 Sensor
End
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