Specifications are subject to change without notice (.24.11.2005)
1
Ultrasonic
Diffuse, Dual Transistor Outputs
Type UC 80 CND 60 . P M1 TR
Product Description
Ultrasonic sensor
Housing style
Housing size
Housing material
Housing length
Detection principle
Sensing distance
Output type
Output configuration
Connection
Remote teach
Type Selection
Housing Connection
Rated
operating
Outputs
Ordering
no.
dimensions
dist. (S
n
)
80 x 80 x 50 mm
Plug M12, 5 pin
600-6000 mm
2 x PNP, NO/NC
UC 80 CND 60 PP M1 TR
80 x 80 x 50 mm
Plug M12, 5 pin
600-6000 mm
2 x NPN, NO/NC
UC 80 CND 60 NP M1 TR
Ordering Key UC80CND60PPM1TR
A self-contained multi func-
tion diffuse ultrasonic sensor
with a sensing range of 600
to 6000 mm. 2 switching
outputs - easily set up for 3
different switching modes
and adjusted by teach-in -
makes it ideal for level con-
trol tasks in a wide variety of
vessels. A sturdy one-piece
ABS housing provides the
perfect packaging for the
sofisticated microprocessor
controlled and digitally fil-
tered sensor electronics.
Excellent EMC performance
and precision are typical
features of this sensor
based on true distance
measurement.
Technical Data
Rated operational volt. (Ue)
15 to 30 VDC (ripple included)
Ripple
10%
Output current (Ie)
max. 500 mA (continuous)
No-load supply current (Io)
80 mA
Protection
Short-circuit, transients and
reverse polarity
Rated insulation voltage
> 1 kV
Output
2 PNP or NPN open collector
outputs, NO or NC
Power-on delay
200 ms
Voltage drop (Ud)
< 0.5 V
Off-state current (Ir)
< 10 A
Teach-in Set point adjustment NO/NC selection
Switching modes selection
Indication
Set points, 2 LEDs yellow
Echo, 1 LED green
Rated operating distance
600 - 6000 mm
Operating frequency
0.5 Hz
Carrier frequency
80 kHz
Response time
70 ms (target speed 1 m/s
in beam direction)
700 ms (step response)
Hysteresis (H) (differential travel) Programmable
Temperature compensation
Yes
Beam angle
8
Ambient temperature
Operating and Storage
-15 to +70C (5 to +158F)
Environment
Overvoltage category
II (IEC 60664/60664A,
60947-1)
Pollution degree
3 (IEC 60664/60664A,
60947-1)
Degree of protection
IP 65 (IEC 60529, 60947-1)
Housing material
ABS
Connection
Plug M12, 5-pin
Cables for plug (M1)
CONM15 series
Weight
300 g
CE-marking
Yes
Square 80 mm ABS housing
Sensing distance: 600 - 6000 mm
Remote Teach by wire
Outputs: 2 multi function switching outputs PNP or
NPN, NO or NC
Setup of "Normal Switching", "Window" or "Adjustable
Hysteresis" function
Power supply: 15 to 30 VDC
8 beam angle
Protection: Short-circuit, reverse polarity, transients
Protection degree IP 67
M12 plug, 5 pin
2
Specifications are subject to change without notice (24.11.2005)
UC 80 CND 60 . P M1 TR
Switching Operation
D ist anc e
SP 1
SP 2
SP 1
SP 2
P1 P2
P1
P2
D ist anc e
SP 1
SP 2
SP 1
SP 2
P1
P2
P1 P2
Distance
P1
P2
Distance
P1
P2
Distance
P1
P2
Distance
NO Characteristics
NC Characteristics
Normal Switching Operation
Windows Function
Hysteresis Adjustment
The following 3 different modes of the switching outputs can
be selected:
I Normal switching function
II Window function
III Adjustable hysteresis
All these functions may be programmed/taught by means of
the Teach-in input (pin 5) present in the connector. Each
mode has a unique indication using the Echo, P1 and P2
LEDs. The programming/Teach-In procedure is shown in the
following flow diagram:
Teach in of switching output SP1
Position P1 Switching output can be
either NO or NC.
Teach in of switching output SP2
Switching output can be either NO or NC.
Window function / Selection of Hysteresis Mode
SP1 is switching when object is between P1
and P2. SP2 is switching when the object is
NOT between P1 und P2.
Hysteresis adjustment of set points at P1
Distance between P1 and P2 determines the
hyteresis of the switching outputs. SP1 has
NO and SP2 has NC characteristics.
Teach-In for
8 sec
14 sec
20 sec
Normal function:
The Echo LED is ON when an echo is received (alignment
LED). P1 and P2 LEDs are indicating status of the switching
outputs.
Echo
P1
P2
Green Yellow Yellow
Wiring Diagram
4
3
2
5
1
1 BN
4 BK
2 WH
5 PK (GY)
3 BU
NPN
SP1
SP2
Teach-In for
14 sec
Teach-In for
20 sec
Teach input is
active when
5 BE wire is
connected to
Ground (3 BU).
4
3
2
5
1
1 BN
4 BK
2 WH
5 PK (GY)
3 BU
PNP
SP1
SP2
Teach input is
active when
5 BE wire is
connected to
Ground (3 BU).
Specifications are subject to change without notice (.24.11.2005)
3
Detection Range
600
6000
+400
-400
mm
mm
Guaranteed detection of a target 100 x 100 mm
Possible detection of a large target
Normal switching function
The Teach-In function
When - in the following paragraphs, the term "Activate
Teach-In" is used, this means: make contact between the
Teach-in wire and GND wire once (ON-OFF) - could be done
with an externally mounted switch.
When - in the following paragraphs, the term "Hold Teach-
In" is used, this means: make contact between the Teach-in
wire and GND wire (ON) - could be done with an externally
mounted switch.
Teach-In of P1 (SP1 position)
Hold Teach-In for 8 seconds until P1 and Echo LED's start
flashing 2 times per second.
The sensor is now in teach mode for P1:
P1 LED will now flash once per second and the Echo LED
returns to normal function (alignment LED).
The Teach-In function is now open for 1 minute to do the
programming of P1.
Place the target at the new position P1.
Activate Teach-in: P1 is now programmed.
Sensor returns to normal function with new value for P1.
Switching output characteristics can be selected during
teaching of the set point P1. If activating the Teach-In as the
LED is ON the switching output will have NO characteris-
tics, if doing this as the LED is OFF, the switching output will
have NC characteristics.
Teach-In of P2 (SP2 position)
Hold Teach-In for 14 seconds until the P2 and Echo LEDs
start flashing 2 times per second. After 8 seconds, the P1
and Echo LEDs will start flashing, but this must be ignored
and after an additional 5 seconds the P2 is reached.
The sensor is now in teach mode for P2:
P1 LED is flashing once per second. The Echo LED returns
to normal function (alignment LED).
Teach-mode is now open for 1 minute to do the program-
ming of P1.
Move the target to the new position P2.
Activate Teach-in: P2 is now programmed.
Sensor returns to normal function with new value for P2.
Switching output characteristics can be selected during
teaching of the set point P2. If activating the Teach-In as the
LED is ON the switching output will have NO characteris-
tics, if doing this as the LED is OFF, the switching output will
have NC characteristics.
Window function/ Hysteresis adjustment
Hold Teach-In for 20 seconds - to skip through the P1 and
P2 teaching sequences - until P1, P2 and Echo LED's start
flashing 2 times per second indicating the hysteresis teach
mode.
De-activate Teach-In to enter teach mode for Window
Function / Hysteresis Adjustment:
P1 LED is flashing once per second.
The Echo LED returns to normal function (alignment LED).
Teach-mode is now open for 1 minute to complete the pro-
gramming.
Now activate Teach-In at the desired LED indication (see
below):
P1 LED is OFF = Window Function
Activating Teach-In now, makes the sensor operate in
Windows Function mode. If there is an object between P1
and P2, SP1 will switch ON and SP2 will switch OFF. If there
is no object between P1 and P2, SP1 will switch OFF and
SP2 will switch ON.
P1 LED is ON = Hysteresis Adjustment
Activating Teach-In now, makes the sensor operate in
Hysteresis Adjustment mode. The switching output SP1 will
be (NO) at P1 with hysteresis P1-P2 and switching output
SP2 will be (NC) also at P1 with hysteresis P1-P2.
Teach-in procedure
UC 80 CND 60 . P M1 TR
Dimensions
Dimensions in mm.
4
Specifications are subject to change without notice (24.11.2005)
UC 80 CND 60 . P M1 TR
Installation Hints
Relief of cable strain
Protection of the sensing face
Switch mounted on mobile carrier
To avoid interference from inductive voltage/
current peaks, separate the prox. switch
power cables from any other power cables,
e.g. motor, contactor or solenoid cables
Incorrect
Correct
The cable should not be pulled
A proximity switch should not serve as
mechanical stop
Any repetitive flexing of the
cable should be avoided
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