U2642B Datasheet, PDF(2/10 Page) TEMIC Semiconductors – Intermittent- and Wipe/Wash Control for Wiper Systems

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

U2642B Datasheet, PDF (2/10 Pages) TEMIC Semiconductors – Intermittent- and Wipe/Wash Control for Wiper Systems

◁

U2642B

Pin Configuration

Pin Symbol

Function

INT Intermittent input

2 WIWA Wipe/wash (WIWA) input

LS Limit switch (wiper motor) input

PP Program pin

GND Ground

REL Relay output

VS Supply voltage

OSC RC oscillator input

INT 1

8 OSC

WIWA 2

7 VS

LS 3

6 REL

PP 4

5 GND

13365

Figure 2. Pinning

Functional Description

All times specified below refer to an oscillator frequency

of 200 Hz. Figures 2 to 9 show the dependencies of the

times upon battery voltage and temperature. The

temperature dependence of the oscillator frequency is

essentially determined by the temperature coefficient of

the oscillator capacitor. The temperature dependence of

the oscillator frequency can be reduced to minimum with

a slightly negative temperature coefficient (N100). The

capacitor used in figures 10 and 11 has a slightly positive

temperatur coefficient.

All times are permanently set and can be changed only

jointly within certain limits by adjusting the oscillator

frequency. See table 1.

Intermittent Function

The relay is energized for the time tON after the switch

INT is switched on with respect to VBatt and after

expiration of time tD (debounce).

The debounce time ranges between 60 ms and 80 ms. A

time period of 5 ms to 40 ms for internal sequence control

must be added (asynchronism between operating instant

and internal clock) e.g., the response time may range from

65 ms up to 120 ms.

If the limit switch of the windscreen wiper motor is

connected to Pin LS, the relay is energized as long as the

switch is at high potential, regardless of the relay on-time,

tON, i.e., the motor current in interval mode flows via the

relay contact only. In park position, the motor winding at

both ends is connected to ground via the limit switch and

the motor is decelerated immediately. The limit switch

input is debounced with tDL = 17 ms.

The relay on-time, tON, always elapsed â even if the

interval switch was opened beforehand.

Interval Pause

The interval pause tINT = 10 s follows tON. Opening of

switch INT causes a debounce time, tD, and reclosing

results in the relay on-time, tON, after tD.

Wipe/Wash Function without Pre-Wash

Delay (PP connected to GND)

The water pump is switched on when the switch WIWA

is pressed and, after the debounce time, tD, the relay is

energized. After-wiping time tAW = 5.8 s starts as soon as

switch WIWA is opened and the debounce time, tD, has

expired. If the limit switch is connected, the relay remains

energized until the wiper arm returns to park position, i.e.,

the motor current flows via the relay contact only.

Wipe/Wash Function with Pre-Wash Delay

(PP connected to VS)

In wipe/wash mode, the relay is energized after a delay

time. The water pump can spray water onto the wind-

screen during the delay time, tDEL.

The on-delay time of the U2641B is:

tDEL = tD + 0.84 s = 0.91 s

If switch WIWA is closed longer than tD but shorter than

tDEL, the after-wiping time, tAW, starts after expiration of

tDEL. The wipe/wash function with or without on-delay

tDEL can be selected by programming PP.

PP connected to GND:

PP connected to VS:

without pre-wash delay

with pre-wash delay

The after-wiping time, tAW, is re-triggerable in both cases.

Intermittent and Wipe/Wash Mode

The wipe/wash function has priority over the interval

function. If switch WIWA is closed during the interval

2 (10)

TELEFUNKEN Semiconductors

Rev. A2, 02-Dec-97

▷