CAP1208 CPS

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 1

General Description

The CAP1206 is a multiple channel capacitive touch
sensor controller. It contains six (6) individual capaci-
tive touch sensor inputs with programmable sensitivity
for use in touch sensor applications. Each sensor input
is calibrated to compensate for system parasitic capac-
itance and automatically recalibrated to compensate
for gradual environmental changes.

The CAP1206 includes Multiple Pattern Touch recogni-
tion that allows the user to select a specific set of but-
tons to be touched simultaneously. If this pattern is
detected, a status bit is set and an interrupt is gener-
ated.

The CAP1206 has Active and Standby states, each
with its own sensor input configuration controls. Power
consumption in the Standby state is dependent on the
number of sensor inputs enabled as well as averaging,
sampling time, and cycle time. Deep Sleep is the low-
est power state available, drawing 5µA (typical) of cur-
rent. In this state, no sensor inputs are active, and
communications will wake the device.

Applications

• Desktop and Notebook PCs

• LCD Monitors

• Consumer Electronics

• Appliances

Features

• Six (6) Capacitive Touch Sensor Inputs

- Programmable sensitivity

- Automatic recalibration 

- Calibrates for parasitic capacitance

- Individual thresholds for each button

• Multiple Button Pattern Detection

• Power Button Support

• Press and Hold Feature for Volume-like Applica-

tions

• 3.3V or 5V Supply

• Analog Filtering for System Noise Sources

• RF Detection and Avoidance Filters

• Digital EMI Blocker

• 8kV ESD Rating on All Pins (HBM)

• Low Power Operation

- 5µA quiescent current in Deep Sleep

- 50µA quiescent current in Standby (1 sensor 

input monitored)

- Samples one or more channels in Standby

• SMBus / I

2

C Compliant Communication Interface

• Available in a 10-pin 3mm x 3mm DFN RoHS 

compliant package

CAP1206

6-Channel Capacitive Touch Sensor

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

CAP1206

DS00001567B-page 2

 2013-2015 Microchip Technology Inc.

TO OUR VALUED CUSTOMERS

It is our intention to provide our valued customers with the best documentation possible to ensure successful use of your Microchip
products. To this end, we will continue to improve our publications to better suit your needs. Our publications will be refined and
enhanced as new volumes and updates are introduced. 

If you have any questions or comments regarding this publication, please contact the Marketing Communications Department via
E-mail at 

docerrors@microchip.com

. We welcome your feedback.

Most Current Data Sheet

To obtain the most up-to-date version of this data sheet, please register at our Worldwide Web site at:

http://www.microchip.com

You can determine the version of a data sheet by examining its literature number found on the bottom outside corner of any page. 
The last character of the literature number is the version number, (e.g., DS30000000A is version A of document DS30000000).

Errata

An errata sheet, describing minor operational differences from the data sheet and recommended workarounds, may exist for cur-
rent devices. As device/documentation issues become known to us, we will publish an errata sheet. The errata will specify the
revision of silicon and revision of document to which it applies.

To determine if an errata sheet exists for a particular device, please check with one of the following:
• Microchip’s Worldwide Web site; 

http://www.microchip.com

• Your local Microchip sales office (see last page)

When contacting a sales office, please specify which device, revision of silicon and data sheet (include -literature number) you are
using.

Customer Notification System

Register on our web site at 

www.microchip.com

 to receive the most current information on all of our products.

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 3

CAP1206

Table of Contents

1.0 Introduction  ..................................................................................................................................................................................... 4
2.0 Pin Description and Configuration  .................................................................................................................................................. 8
3.0 Functional Description  .................................................................................................................................................................. 21
4.0 Register Descriptions  .................................................................................................................................................................... 58
5.0 Operational Characteristics ........................................................................................................................................................... 69
6.0 Package Outline ............................................................................................................................................................................ 85
Appendix A: Data Sheet Revision History ........................................................................................................................................... 91
The Microchip Web Site  ...................................................................................................................................................................... 93
Customer Change Notification Service  ............................................................................................................................................... 93
Customer Support  ............................................................................................................................................................................... 93
Product Identification System  ............................................................................................................................................................. 94

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 4

CAP1206

1.0

INTRODUCTION

1.1

Block Diagram

1.2

Pin Diagrams

FIGURE 1-1:

CAP1206 BLOCK DIAGRAM

FIGURE 1-2:

CAP1206 14-PIN SOIC

SMBus  

Protocol

VDD

GND

Capacitive Touch Sensing Algorithm

CS1

CS2

CS3

CS4

CS5

SMCLK

SMDATA

ALERT#

CS6

CA

P1

206

1

2

3

4

14

13

12

11

5

6

7

10

9

8

N/C

CS1 

ALERT#

SMDAT

SMCLK

N/C

N/C

CS2

CS3

CS4

CS5

CS6

GND

VDD

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

CAP1206

DS00001567B-page 5

 2013-2015 Microchip Technology Inc.

 

 

FIGURE 1-3:

CAP1206 PIN DIAGRAM (10-PIN 3 X 3 MM DFN)

TABLE 1-1:

PIN DESCRIPTION FOR CAP1206

QFN Pin #

SOIC Pin #

Pin Name

Pin Function

Pin Type

Unused 

Connection

1

2

CS1

Capacitive Touch Sensor Input 1

AIO

Connect to 

Ground

2

3

ALERT# 

ALERT# - Active low alert / interrupt out-
put for SMBus alert - requires pull-up 
resistor (default)

OD

Connect to 

Ground

3

4

SMDATA

SMDATA - Bi-directional, open-drain 
SMBus or I

2

C data - requires pull-up 

resistor

DIOD

n/a

4

5

SMCLK

SMCLK - SMBus or I

2

C clock input - 

requires pull-up resistor 

DI

n/a

5

7

VDD

Positive Power supply

Power

n/a

6

9

CS6

Capacitive Touch Sensor Input 6

AIO

Connect to 

Ground

7

10

CS5

Capacitive Touch Sensor Input 5

AIO

Connect to 

Ground

8

11

CS4

Capacitive Touch Sensor Input 4

AIO

Connect to 

Ground

9

12

CS3

Capacitive Touch Sensor Input 3

AIO

Connect to 

Ground

10

13

CS2

Capacitive Touch Sensor Input 2

AIO

Connect to 

Ground

Bottom 

Pad

8

GND

Ground

Power

n/a

CS3

CS2

1

2

3

4

5

CS4

CS1

ALERT#

SMDATA

VDD

SMCLK

CS5

CS6

GND

10

9

8

7

6

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 6

CAP1206

1.3

Pin Description

APPLICATION NOTE:  All digital pins are 5V tolerant pins.

The pin types are described in 

Table 1-2, "Pin Types"

TABLE 1-2:

PIN TYPES

Pin Type

Description

Power

This pin is used to supply power or ground to the device.

DI

Digital Input - This pin is used as a digital input. This pin is 5V tolerant.

AIO

Analog Input / Output - This pin is used as an I/O for analog signals. 

DIOD

Digital Input / Open Drain Output - This pin is used as a digital I/O. When it is used as an 
output, it is open drain and requires a pull-up resistor. This pin is 5V tolerant.

OD

Open Drain Digital Output - This pin is used as a digital output. It is open drain and requires 
a pull-up resistor. This pin is 5V tolerant.

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 7

CAP1206

2.0

ELECTRICAL SPECIFICATIONS

 

Note 2-1

Stresses above those listed could cause permanent damage to the device. This is a stress rating
only and functional operation of the device at any other condition above those indicated in the
operation sections of this specification is not implied. 

Note 2-2

For the 5V tolerant pins that have a pull-up resistor, the voltage difference between V

5VT_PIN

 and V

DD

must never exceed 3.6V. 

Note 2-3

The Package Power Dissipation specification assumes a recommended thermal via design consisting
of a 2x3 matrix of 0.3mm (12mil) vias at 0.9mm pitch connected to the ground plane with a 1.6 x
2.3mm thermal landing. 

Note 2-4

Junction to Ambient (

JA

) is dependent on the design of the thermal vias. Without thermal vias and

a thermal landing, the 

JA

 will be higher. 

TABLE 2-1:

ABSOLUTE MAXIMUM RATINGS

Voltage on VDD pin 

-0.3 to 6.5

V

Voltage on CS pins to GND

-0.3 to 4.0

V

Voltage on 5V tolerant pins (V

5VT_PIN

)

-0.3 to 5.5

V

Voltage on 5V tolerant pins (|V

5VT_PIN

 - V

DD

|) (see 

Note 2-2

)

0  to  3.6

V

Input current to any pin except VDD

+10

mA

Output short circuit current

Continuous

N/A

Package Power Dissipation up to T

A

 = 85°C for 10-pin DFN

(see 

Note 2-3

)

0.5

W

Junction to Ambient (

JA

) (see 

Note 2-4

)

78

°C/W

Operating Ambient Temperature Range

-40 to 125

°C

Storage Temperature Range

-55 to 150

°C

ESD Rating, All Pins, HBM

8000

V

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

CAP1206

DS00001567B-page 8

 2013-2015 Microchip Technology Inc.

 

TABLE 2-2:

ELECTRICAL SPECIFICATIONS

V

DD

 = 3V to 5.5V, T

A

 = 0°C to 85°C, all Typical values at T

A

 = 25°C unless otherwise noted.

Characteristic

Symbol

Min

Typ

Max

Unit

Conditions

DC Power

Supply Voltage

V

DD

3.0

5.5

V

Supply Current

I

STBY_DEF

120

170

µA

Standby state active 

1 sensor input monitored

Default conditions (8 avg, 70ms 

cycle time)

I

STBY_LP

50

µA

Standby state active

1 sensor input monitored

1 avg, 140ms cycle time

I

DSLEEP_3V

5

TBD

µA

Deep Sleep state active

No communications

T

A

 < 40°C

3.135 < V

DD 

< 3.465V

I

DD

500

750

µA

Capacitive Sensing Active

Capacitive Touch Sensor Inputs

Maximum Base 

Capacitance

C

BASE

50

pF

Pad untouched

Minimum Detectable 

Capacitive Shift

C

TOUCH

20

fF

Pad touched - default conditions

Recommended Cap 

Shift

C

TOUCH

0.1

2

pF

Pad touched - Not tested

Power Supply 

Rejection

PSR

±3

±10

counts 

/ V

Untouched Current Counts 

Base Capacitance 5pF - 50pF

Negative Delta Counts disabled

Maximum sensitivity

All other parameters default

Power-On and Brown-out Reset (see 

Section 4.2, "Reset"

)

Power-On Reset 

Voltage

V

POR

1

1.3

V

Pin States Defined

Power-On Reset 

Release Voltage

V

PORR

2.85

V

Rising V

DD

Ensured by design

Brown-Out Reset

V

BOR

2.8

V

Falling V

DD

VDD Rise Rate 

(ensures internal 

POR signal)

SV

DD

0.05

V/ms

0 to 3V in 60ms

Power-Up Timer 

Period

t

PWRT

10

ms

Brown-Out Reset 

Voltage Delay

t

BORDC

1

µs

V

DD

 = V

BOR

 - 1

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 9

CAP1206

Timing 

Time to 

Communications 

Ready

t

COMM_DLY

15

ms

Time to First 

Conversion Ready

t

CONV_DLY

170

200

ms

I/O Pins

Output Low Voltage

V

OL

0.4

V

I

SINK_IO

 = 8mA

Output High Voltage

V

OH

V

DD

 - 

0.4

V

I

SOURCE_IO

 = 8mA

Input High Voltage

V

IH

2.0

V

Input Low Voltage

V

IL

0.8

V

Leakage Current

I

LEAK

±5

µA

powered or unpowered

T

A

 < 85°C

pull-up voltage < 3.6V if 

unpowered

SMBus Timing

Input Capacitance

C

IN

5

pF

Clock Frequency

f

SMB

10

400

kHz

Spike Suppression

t

SP

50

ns

Bus Free Time Stop 

to Start

t

BUF

1.3

µs

Start Setup Time

t

SU:STA

0.6

µs

Start Hold Time

t

HD:STA

0.6

µs

Stop Setup Time

t

SU:STO

0.6

µs

Data Hold Time

t

HD:DAT

0

µs

When transmitting to the master

Data Hold Time

t

HD:DAT

0.3

µs

When receiving from the master

Data Setup Time

t

SU:DAT

0.6

µs

Clock Low Period

t

LOW

1.3

µs

Clock High Period

t

HIGH

0.6

µs

Clock / Data Fall 

Time

t

FALL

300

ns

Min = 20+0.1C

LOAD

 ns

Clock / Data Rise 

Time

t

RISE

300

ns

Min = 20+0.1C

LOAD

 ns

Capacitive Load

C

LOAD

400

pF

per bus line

TABLE 2-2:

ELECTRICAL SPECIFICATIONS (CONTINUED)

V

DD

 = 3V to 5.5V, T

A

 = 0°C to 85°C, all Typical values at T

A

 = 25°C unless otherwise noted.

Characteristic

Symbol

Min

Typ

Max

Unit

Conditions

/var/www/html/datasheet/sites/default/files/pdfhtml_dummy/00001567B-html.html
background image

 2013-2015 Microchip Technology Inc.

DS00001567B-page 10

CAP1206

3.0

COMMUNICATIONS

3.1

Communications

The CAP1206 communicates using the SMBus or I

2

C protocol.

3.2

System Management Bus

The CAP1206 communicates with a host controller, such as an MCHP SIO, through the SMBus. The SMBus is a two-
wire serial communication protocol between a computer host and its peripheral devices. A detailed timing diagram is
shown in 

Figure 3-1

. Stretching of the SMCLK signal is supported; however, the CAP1206 will not stretch the clock sig-

nal.

3.2.1

SMBUS START BIT

The SMBus Start bit is defined as a transition of the SMBus Data line from a logic ‘1’ state to a logic ‘0’ state while the
SMBus Clock line is in a logic ‘1’ state. 

3.2.2

SMBUS ADDRESS AND RD / WR BIT

The SMBus Address Byte consists of the 7-bit client address followed by the RD / WR indicator bit. If this RD / WR bit
is a logic ‘0’, then the SMBus Host is writing data to the client device. If this RD / WR bit is a logic ‘1’, then the SMBus
Host is reading data from the client device. 

3.2.3

The CAP1206responds to SMBus address 0101_000(r/w). 

SMBUS DATA BYTES

All SMBus Data bytes are sent most significant bit first and composed of 8-bits of information. 

3.2.4

SMBUS ACK AND NACK BITS

The SMBus client will acknowledge all data bytes that it receives. This is done by the client device pulling the SMBus
Data line low after the 8th bit of each byte that is transmitted. This applies to both the Write Byte and Block Write proto-
cols.

The Host will NACK (not acknowledge) the last data byte to be received from the client by holding the SMBus data line
high after the 8th data bit has been sent. For the Block Read protocol, the Host will ACK each data byte that it receives
except the last data byte. 

3.2.5

SMBUS STOP BIT

The SMBus Stop bit is defined as a transition of the SMBus Data line from a logic ‘0’ state to a logic ‘1’ state while the
SMBus clock line is in a logic ‘1’ state. When the CAP1206 detects an SMBus Stop bit and it has been communicating
with the SMBus protocol, it will reset its client interface and prepare to receive further communications. 

FIGURE 3-1:

SMBUS TIMING DIAGRAM

SM D A TA

SM C LK

T

B U F

P

S

 

S  - Start C o ndition

P - Stop C ondition

P

S

T

H IG H

T

LO W

T

H D :STA

T

SU :STO

T

H D :STA

T

H D :D AT

T

S U :D AT

T

SU :STA

T

FALL

T

R ISE

Maker
Microchip Technology Inc.
Datasheet PDF Download