ATMEL U642B-FP

U642B
Interval- and Wipe/ Wash Wiper Control IC
Description
As a convenience feature of the windshield wiper
intermittent and wipe/wash operation are implemented in
most of the automobiles. The U642B is the low-cost
solution for an accurate timing function control.
Wipe/wash mode has priority over interval mode. Interval
pause and afterwiping time can be set to fixed values by
using resistors in a broad time range. Added value can be
provided with an individual, continuous adjustment of the
interval pause by a potentiometer which may be built into
the stalk. For proper operation it is mandatory to feed the
signal of the wiper motor‘s park switch into U642B.
Features
Interval pause: 4 to 20 s
One external capacitor, determines all time sequences
Afterwiping time: 2 to 20 s
Relay driver with Z-diode
Wiper motor’s park switch
Interference protection according to VDE 0839 or
ISO/TR 7637/1
Wipe/wash mode priority
Load-dump protected
Block Diagram
VS
8
OUT
PARK
7
WASH
6
5
VRef
VRef
Park switch
comparator
Load-dump
comparator
Input
comparator
VRef
Logic
Wipe / wash
comparator
VRef
Interval
comparator
1
GND
A
B
2
INT
C
D
3
Ct
E
F
4
Rt
94 8950
Figure 1. Block diagram
Rev. A4, 10-Apr-01
1 (7)
U642B
Ordering Information
Extended Type Number
Package
U642B
DIP8
U642B–FP
SO8
Remarks
Pin Description
Pin
Symbol
Function
1
GND
Ground
2
INT
Interval switch
3
Ct
Timing capacitor C2
4
Rt
Afterwiping time resistance
5
WASH
Wipe/Wash switch
6
PARK
Park switch for wiper motor
7
OUT
Relay control output
8
VS
GND
1
8
VS
INT
2
7
OUT
Ct
3
6
PARK
Rt
4
5
WASH
U642B
93 7691
Supply voltage KI. 15
Figure 2. Pinning
Circuit Description
Interval Function, Pin 2
By closing the interval switch, S2, to supply voltage,
VBatt, the relay is activated. The internal current source
(Pin 3) which holds the capacitor C2 in charged state is
switched-off. As soon as there is a positive potential at the
park switch (S1), the current source F (see figure 1)
charges the capacitor C2 very fast. After the wiper
operation is finished, S1 is again at ground potential, the
relay is in ”off” position – interval pause begins – the
capacitor C2 is discharged through the current source C,
till the voltage at Pin 3 is below the threshold of 2 V.
Interval pause can be adjusted between 4 s to 20 s with the
help of potentiometer R3. Now the relay switches on and
the next interval cycle begins. Opening of switch S2
causes the current source A to discharge C2 immediately
and current sources C and F are switched-off.
Wipe/Wash (WIWA) Operation, Pin 5
By closing the WIWA-switch, S3, to supply voltage,
VBatt, the water pump starts spraying water on the windscreen, the current source A is switched-off which keeps
the capacitor C2 in discharged state. Now the capacitor is
charged through the current sources D and F, and when after a time interval of approximately 100 ms, the voltage
2 (7)
at the capacitor is greater than 6.5 V, the relay is turned
on as long as the switch ”WIWA” is closed.
The after-wipe-time begins after the switch is open
whereas the sources D and F are switched off and the
source E is activated. Source E discharges the capacitor
till the voltage is less than 2.2 V. The relay is off and the
wiper-motor is supplied via the park switch until the park
position will be reached. The after-wipe-time is
determined by the current source E which can be
regulated with the external resistor RTime. Afterwards the
source A discharges the capacitor. The relay switch off is
independent of the park switch S1.
Interval and WIWA Functions
The interval function is interrupted immediately when the
wipe/ wash mode is activated. The current source A discharges the capacitor to a value of 2 V, afterwards the
normal wash function starts.
Interval wiping starts immediately when the after-wipetime is over. The switching delays are slightly shorter,
because the capacitor is already charged to a value of 2 V.
The wipe/ wash function is not interrupted when interval
switch S2 is activated. Interval function begins after the
WIWA function is over.
Rev. A4, 10-Apr-01
U642B
10 k
47 F
10 V
C
5
4
3
2
C
R
2
1
510 2
22 F
10 V
R
4
Rtime = 130 k
R
S
1
10 k
5
U642B
2.7 k
S
R
1
1
R
6
6
7
8
Relay
R
2
3
10 k
WIWA
Park
switch
M
M
S
3
31
Wiper motor
Interval switch
15
Water pump
94 8951
Figure 3. Application circuit with interval and wipe/wash operation
Rev. A4, 10-Apr-01
3 (7)
U642B
Absolute Maximum Ratings
Parameters
Symbol
Value
Unit
VBatt
28
V
I8
I8
I7
I7
1.5
150
200
1.2
A
mA
mA
A
I6
I5
I2
Ptot
50
50
50
500
mA
mW
Storage temperature range
Tstg
–55 to +125
°C
Ambient temperature range
Tamb
–40 to +85
°C
Symbol
Value
Unit
RthJA
RthJA
120
160
K/W
K/W
Supply voltage
t = 60 s
Terminal 15, Pin 8
Supply current
t = 2 ms
t = 200 ms
Relay control output current (DC)
t = 200 ms
Pulse current (control inputs)
t = 200 ms
Power dissipation
Park switch, S1
Wipe/Wash switch, S3
Interval switch, S2
Tamb = 90°C
Pin 8
Pin 7
Pin 6
Pin 5
Pin 2
Thermal Resistance
Parameters
Junction ambient
DIP8
SO8
Electrical Characteristics
VBatt = 12 V, Tamb = 25°C, reference point is Pin 8 (see figure 3) unless otherwise specified.
Parameters
Test Conditions / Pins
Supply voltage
Supply current
Pin 8
Symbol
Min.
VBatt
9
Typ.
Max.
Unit
16.5
V
I8
10
mA
V1
7.6
V
Threshold current
I1
–50
mA
Threshold voltage
VBatt
35
V
Z-diode limitation
Overvoltage
Relay control output
Saturation voltage
Pin 7
I7 = 100 mA
I7 = 200 mA
Leakage current
Park switch
Internal pull-up resistance
Input Ct
R6 = 10 k
I6 = –10 mA
I6 = 10 mA
Pin 3
Internal resistance
Interval input, R2 = 2.7 to 30 k
Protection diode
4 (7)
–1.0
–1.5
V
I7
100
A
R6
50
k
V6
–3.3
V
V6
V6
–0.8
7.6
V
V
R3
100
V2
–0.8
7.6
V
Pin 6
Switching threshold voltage
Protection diode
V7
Pin 2
I2 = –10 mA
I2 = 30 mA/10 ms
Rev. A4, 10-Apr-01
U642B
Electrical Characteristics (continued)
VBatt = 12 V, Tamb = 25°C, reference point is Pin 8 (see figure 3) unless otherwise specified.
Parameters
Test Conditions / Pins
WASH Input, R5 = 10 k
Symbol
Typ.
Max.
Unit
Pin 5
Switching threshold/Hysteresis
Protection diode
Min.
I5 = –10 mA
I5 = 10 mA
V5
–1.4/–5.4
V
V
–0.8
7.6
V
Switching Characteristics, R4 = 47 k to 300 k, I4 = –150 A
Interval time
R3 = 0 k
R3 = 10 k
t2
Prewash delay
4
12
tdel
After-wipe-time
R4 = 130 k
12
Pin 5
4.4
13.2
s
100
t5
4.75
ms
5.25
5.75
s
16
Rint = 0
14
Interval pause (s )
10
Interval pause ( s )
3.6
10.8
Rint = 5 k
8
6
Rint = 10 k
4
12
10
8
6
4
2
0
–40
2
0
–20
0
14005
20
40
60
Temperature ( °C )
80
100
0
Figure 4. Interval pause = f ( T); Ct = 22 F
6 8 10 12 14 16 18 20
Interval resistor ( k )
12
Rtime = 51 k
8
VBatt = 8 V
6
Rtime = 51 k
10
Afterwiping time ( s )
10
Afterwiping time ( s )
4
Figure 6. Interval pause = f ( RINT); Ct = 22 F
12
Rtime = 130 k
4
Rtime = 300 k
2
0
–40
2
14009
8
VBatt = 16 V
6
Rtime = 130 k
4
Rtime = 300 k
2
–20
14006
0
20
40
60
Temperature ( °C )
80
Figure 5. Afterwiping time = f ( T); Ct = 22 F
Rev. A4, 10-Apr-01
0
–40
100
14007
–20
0
20
40
60
Temperature ( °C )
80
100
Figure 7. Afterwiping time = f ( T); Ct = 22 F
5 (7)
U642B
Package Information
Package DIP8
Dimensions in mm
9.8
9.5
1.64
1.44
7.77
7.47
4.8 max
6.4 max
0.5 min
0.58
0.48
3.3
0.36 max
9.8
8.2
2.54
7.62
8
5
technical drawings
according to DIN
specifications
13021
1
4
Package SO8
Dimensions in mm
5.2
4.8
5.00
4.85
3.7
1.4
0.25
0.10
0.4
1.27
6.15
5.85
3.81
8
0.2
3.8
5
technical drawings
according to DIN
specifications
13034
1
6 (7)
4
Rev. A4, 10-Apr-01
U642B
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with respect to their impact on the health and safety of our employees and the public, as well as their impact on
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in the following documents.
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2. Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental
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and do not contain such substances.
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Rev. A4, 10-Apr-01
7 (7)