MC33941EG Freescale Semiconductor, MC33941EG Datasheet - Page 6

MC33941EG

Manufacturer Part Number

MC33941EG

Description

SENSOR, TOUCH/PROXIMITY, EFID, 24SOICW

Manufacturer

Freescale Semiconductor

Datasheet

1.DEMOMC33941.pdf (11 pages)

Specifications of MC33941EG

Supply Current

7mA

Supply Voltage Range

9V To 18V

Sensor Case Style

SOIC

No. Of Pins

Operating Temperature Range

-40Â°C To +110Â°C

Svhc

No SVHC (15-Dec-2010)

Package / Case

SOIC

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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nominal 5.0 V peak-to-peak amplitude. The frequency is set

by an external resistor and is optimized for 120 kHz. An

internal multiplexer routes the signal to one of the 7 terminals

under control of the ABC input terminals. A receiver

multiplexer simultaneously connected to the selected

electrode and routes its signal to a detector, which converts

the sine wave to a DC level. The DC level is filtered by an

external capacitor, is multiplied and offset to increase

sensitivity. All electrode outputs are grounded internally by

the device when not selected.

electrode are affected by objects in proximity. A “capacitor” is

CAPACITOR MODEL

•

MC33941

C=The Capacitance in Farads (F)

A=The area of the plates in square meters (m2)

d=The distance between the plates in meters (m)

k=The dielectric constant of the material separating the plates

0=Is the permittivity of free space (8.85 x 10-12 F/m)

The 33941 generates a low radio frequency sine wave with

The amplitude and phase of the sinusoidal wave at the

The capacitance measured by the E-Field IC is:

Proportional to the area of the electrode

Proportional to the dielectric constant of the material

between the electrodes

Inversely proportional to the distance between the objects

Drive level ~ 5 v p-p

Figure 3. Capacitor Model

Sine Generator

(120 KHz)

Load Resistor

(22 K ohms)

Stray Variable

Capacitance

Figure 2 . Conceptual Block Diagram

PRINCIPLE OF OPERATION

Virtual Ground

Voltage Level Proportional to 1/C (voltage divider)

Capacitance

increases as

electrodes move

closer together

formed between the driving electrode and the object, each

forming a “plate” that holds the electric charge. The voltage

measured is an inverse function of the capacitance between

the electrode being measured, the surrounding electrodes,

and other objects in the electric field surrounding the

electrode. Increasing capacitance results in decreasing

voltage. The value of the series resistor (22kohm) was

chosen to provide a near linear relationship at 120 kHz over

a range of 10pF to 70pF.

always useful to approach the problem using the capacitor

model.

Electrodes

Object

Detector

While exploring applications using the E-Field chip, it is

Table 4 Dielectric Constants of Various Materials

Acrylic

Glass

Nylon Plastic

Polyester Film

Flexible Vinyl Film

Air

Water

Ice

Automotive Oil

Dielectric Material

Capacitor Model

Detected Signal

Level Decreases

with Increasing

Capacitance

Low Pass Filter

Thickness (mil)

84.5

74.5

Freescale Semiconductor

2.4-4.5

3.0-5.0

2.8-4.5

7.5

3.2

2.1

Sensors

MC33941EG Freescale Semiconductor, MC33941EG Datasheet - Page 6

MC33941EG

Specifications of MC33941EG

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