MPR084EJ Freescale Semiconductor, MPR084EJ Datasheet - Page 17

MPR084EJ

Manufacturer Part Number

MPR084EJ

Description

IC CTLR TOUCH SENSR PROX 16TSSOP

Manufacturer

Freescale Semiconductor

Type

Capacitiver

Datasheet

1.MPR084EJ.pdf (40 pages)

Specifications of MPR084EJ

Number Of Inputs/keys

8 Key

Data Interface

I²C, Serial

Voltage - Supply

1.8 V ~ 3.6 V

Current - Supply

1.62mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-TSSOP

Output Type

Voltage

Interface

I²C

Input Type

Logic

Supply Voltage

3.3 V

Dimensions

5 mm L x 4.4 mm W x 1.05 mm H

For Use With

KITMPR084EVM - KIT EVAL 8-PAD TOUCH MPR084

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MPR084EJ

Manufacturer:

FRE/MOT

Quantity:

20 000

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Sensors

Freescale Semiconductor

5.1

The MPR084 features a Low Power mode that can reduce the power consumption into the microamps range. This feature can

be used to both adjust the response time of the system, and change the conditions on which Low Power would be enabled.

5.2

This Low Power configuration is only active when the sensor controller is in Run2 mode. The Low Power mode decreases current

consumption by increasing the response time of the MPR084. This increase is controlled through two factors.

During normal Run2 operation of the sensor controller the Max Response Time (MRT) is calculated by taking the product of the

TASP and the primary clock. From Chapter 4 the primary clock is the (MTP + 5) ms. Since the sensor controller is in Run2, the

primary clock is also multiplied by a factor of 8. The debounce rate of the MPR084 is 4 times the sample rate thus the MRT is

represented by the following equation.

First, the Idle Interface Timeout (IIT) represents the total time the touch interface should remain idle before going into Low Power

mode. This value can be calculated by taking the product of the ITP, TASP and primary clock (8ms) with a factor of 64. Thus the

IIT is represented as follows:

Second, the Max Response Time (MRT) represents the total time the touch interface should remain inactive before scanning the

electrodes. This value can be calculated by taking the product of the SCD, TASP and primary clock (8ms) with a factor of 5. Thus

the MRT is represented as follows:

When in Run2 mode, the sensor controller will initially scan the electrodes at the rate of MRT

touch interface remains idle for the IIT period then the scan period will change to MRT

detected the scan rate will transition back to MRT

5.3

Low Power Configuration is achieved through setting two values; the Idle Timeout Period and the Sleep Cycle Duration. This

functionality is described in the following section.

Low Power Configuration

Introduction

Operation

Configuration

MRT

run2 SET

ITT

MRT

Figure 20. Low Power Scan Period Transition Diagram









MTP

--------------------- -

MTP

--------------------- -





MTP

--------------------- -

LP DISABLED





MRT 1







TASP ITP





TASP SCD 4 8



TASP 4 8ms

TOUCH DETECTED



ITT PERIOD



6 8ms



 ms

. When scanning at MRT

MRT 2

. When scanning at MRT

and a touch is

Equation 1

Equation 2

Equation 3

MPR084

and the

MPR084EJ Freescale Semiconductor, MPR084EJ Datasheet - Page 17

MPR084EJ

Specifications of MPR084EJ

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