MK712SLF_技术文档

DATASHEET

TOUCH SCREEN CONTROLLER

MK712

Description

Features

The MK712 Touch Screen Controller IC provides all the

screen drive, A to D converter and control circuits to easily

interface to 4-wire analog resistive touch screens.

• Packaged in 28-pin SSOP (150 mil) or 28-pin SOIC (300

mil)

• Industrial (-30°C to +70°C) and commercial (0 to +70°C)

and automotive (-35°C to +85°C) temperature ranges

The IC continually monitors the screen waiting for a touch.

In this mode, the supply current is typically 0.5µA. When

the screen is touched, the IC performs analog to digital

conversions to determine the location of the touch, stores

the X and Y locations in the registers, and issues an

interrupt. This process is repeated up to 197 times per

second until no further screen touches are detected, at

which time the low current mode is resumed.

• Pb (lead) free

• Fully integrated, lowest power solution

• Low standby current of 0.5µA (typical) at 5.0 V

• Active current while converting less than 10 mA

• Resolves 350 dots/inch on 10.5” display

• Maximum speed of 197 points/second

• Ratio metric conversion may eliminate screen calibration

• Automatically wakes up and goes back to standby

• 3.3 V or 5 V supply

Block Diagram

• 12 bit A/D converter

• Simplifies the writing of software for touch screens

• Extended temperature range available

• Capacitors are the only external components required

• Touch screen is directly driven - no external transistors

are required

• Programmable conversion rate

• A to D Converter is monotonic

• Parallel interface

Pin Assignment

NC

1

28

27

26

25

24

23

22

21

20

19

18

17

16

15

D0

INT

2

D1

TOUCH

VDD

XH

3

D2

4

D3

5

D4

6

D5

XL

7

VDD

GND

D6

YH

8

YL

9

10

11

12

13

14

GND

WR

D7

CLKIN

A0

RD

A1

CS

A2

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Pin Descriptions

Number

1

Name

NC

Pin Type

Pin Description

—

No connect. Do not connect this pin to anything.

2

3

4

5

6

7

8

9

INT

TOUCH

VDD

XH

XL

YH

YL

Output

Power

Interrupt. Goes high to signal an interrupt. Cleared on next read.

Touch signal. Goes low when screen is touched. Goes high when not touched.

Power Supply. Connect to +5 V or +3.3 V. (Connect all VDDs to same voltage)

Power Supply. Connect to +3.3 V.

Touch Screen Pin Connect to X-high on touch screen. (Right side)

Touch Screen Pin Connect to X-low on touch screen. (Left side)

Touch Screen Pin Connect to Y-high on touch screen. (Top)

Touch Screen Pin Connect to Y-low on touch screen. (Bottom)

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

GND

WR

RD

CS

A2

A1

A0

CLKIN

D7

D6

GND

VDD

D5

D4

D3

D2

D1

D0

Power

Input

I/O

Connect to ground.

Write enable. Active low.

Read enable. Active low.

Chip select. Active low.

Register address 2.

Register address 1.

Register address 0.

Clock input. Typically 14.3 MHz. Best if driven by an IDT clock synthesizer.

Data bit 7.

Data bit 6.

Connect to ground.

I/O

Power

I/O

Power Supply. Connect to +5 V or +3.3 V. (Connect all VDDs to same voltage)

Data bit 5.

Data bit 4.

Data bit 3.

Data bit 2.

Data bit 1.

Data bit 0.

Interrupts

Interrupts are controlled by register 6 (see Register Description). The INT pin (pin 2) goes high to signal an

interrupt. Interrupts are then cleared by reading any register. However, if the MK712 is in the process of generating

an interrupt during a read cycle, then the interrupt is not cleared and INT will stay high. This internal process may

take 100ns, and so to guarantee that the interrupt is cleared, two successive read cycles may be necessary.

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IC Operation

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Register Description

The MK712 register set is designed to be compatible with the Gazelle pen digitizer registers allowing a software

driver for the Gazelle digitizer to be used with the MicroClock MK712. The eight 8-bit registers are defined below:

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Rate Register (Register 7) Programming

Calculating Points Per Second

The formula for determining P.P.S. is:

Power-On Reset

On application of power, an internal reset is generated that clears all bits in registers 0, 1, and 6. Register 7 is set to

32 giving a rate of 86 PPS. Note that clearing register 6 puts the IC into the power down condition.

Initializing the MK712

The interrupt on the MK712 can only be cleared by reading a register or by writing register 6 to the power down

condition. After a fault condition, initialize the MK712 by writing register 6 to zero and then writing register 6 to the

desired value. This will always clear pending interrupts.

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Recommended Circuit

Pen Bounce

When the screen is untouched, the Y plate is driven high and the X plate is driven low. When the screen is touched,

the X plate is pulled high, which is detected by the MK712. This initiates a conversion (as long as periodic

conversions are enabled). Some de-bounce is provided by the time constant of the screen decoupling capacitors

combined with the screen resistance. However, once conversions have started, pen bounce will not be detected

until after both the X and Y points have been taken.

If the pen is lifted during a conversion, this will also not be detected until the conversion is complete. This is typically

indicated by a point with the correct Y coordinates, but minimum (for that screen) X coordinates.

Screen Decoupling

The component values suggested should give excellent results. However, for screens with a high resistance

operating at a high conversion rate, extra interrupts may be issued. This is because the time constant of the screen

decoupling capacitors and screen resistance is high, resulting in the screen appearing to be untouched and then

touched between conversions. These extra interrupts can be eliminated by reducing the size of the screen

decoupling capacitors on pins XH, XL, YH, and YL. This will, however, slightly reduce the noise rejection, which

could decrease the accuracy of the conversion.

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Optimizing Performance when Reading and Writing Registers

Reading and writing the MK712 generates digital noise that may reduce the accuracy of the A to D converter. This

noise has several causes, including board layout, data bus loading, and power supply voltage. By appropriately

timing the register operations, the effects of this noise can be minimized.

After an interrupt is issued, the MK712 allows a minimum of 1 millisecond to elapse before initiating the conversion

cycle. This allows the screen drivers to settle. For best performance, complete all register operations within this 1ms

window after an interrupt.

Power Down/Stopping the Clock

If the screen is untouched, the supply current is under 3µA. If the input clock is stopped, the supply current is also

less than 3µA. When the screen is touched with no clock, TOUCH goes low and INT goes high, but no further

operations occur until the clock starts. A to D conversions are invalid until after the clock has stabilized at the correct

frequency and one full conversion cycle has been completed.

Input Clock

The MK712 is highly tolerant of different clock frequencies (from 12 to 20 MHz), rise times, and duty cycles.

However, any input clock undershoot or overshoot will cause the MK712 to draw extra current. This can be

eliminated by using a MicroClock clock synthesizer and properly terminating the clock driver. MicroClock makes low

power clock synthesizers with 14.3 MHz power down.

Resistive Touch Screen (4-wire)

Resistive touch screens consist of 2 resistive plates that are separated by a small gap. Each plate has an electrode

at each end and when the screen is touched, the two plates are shorted together at that point.

If a voltage is applied, for example, between XL and XH, then a voltage divider is formed on the X PLATE. When the

Y PLATE is touched to the X PLATE, a voltage will be developed on the Y PLATE that is proportional to distance of

the touch from XL and XH. By accurately measuring this voltage, the position of the touch can be determined.

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Recommended Method for Reading Points

If the user is pressing lightly on the touch screen, it is likely that the screen contact will be intermittent. The screen

will bounce, causing false points. This effect can be reduced by insuring that the screen is touched both before and

after a conversion. By doing this, the first and last point in a series of points are discarded. The following algorithm

checks that a point has valid touches both before and after a conversion, and it distinguishes between

change-in-touch interrupts and conversion complete interrupts. Register 6 bits 0, 1, and 2 must all be true (logical

1) in order to use this method.

Warning–When Using a Switching Regulator Power Supply

When using the MK712 in a system where the power is supplied by a switching regulator, do not perform screen

conversions when the regulator is operating in the power saving mode. Some switching regulators feature a low

power mode (for example, Linear Technology’s “Burst Mode”) where the output is turned on and off in order to save

power. The extra power supply noise generated when using this mode causes spurious data points to be returned

from the MK712, so it should be disabled when the MK712 is doing screen conversions.

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Analog to Digital Converter Option

The 12-bit ADC converts X and Y co-ordinates at a rate determined by registers 6 and 7. The converter uses a

ratiometric technique to give absolute co-ordinates on the screen, largely independent of variations in screen

resistance, temperature or power supply voltage. The total voltage applied across the screen is defined as full-scale

for the converter (i.e. 4095) and any point touched on the screen is proportional to this. For example, if the screen

is touched exactly in the center, the converter will read 2047. This feature may allow for the elimination of calibration

upon startup.

However, the full scale voltage is defined at the IC pins and so any parasitic interconnect resistance will be included

in full scale. In addition, the interconnect resistances on the screen also account for about 20% of the total

resistance. This means that approximately the bottom 10% and top 10% of full scale are inaccessible.

The converter is guaranteed to be monotonic, with no missing codes.

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Absolute Maximum Ratings

Stresses above the ratings listed below can cause permanent damage to the MK712. These ratings, which are

standard values for IDT commercially rated parts, are stress ratings only. Functional operation of the device at these

or any other conditions above those indicated in the operational sections of the specifications is not implied.

Exposure to absolute maximum rating conditions for extended periods can affect product reliability. Electrical

parameters are guaranteed only over the recommended operating temperature range.

Item

Rating

Supply Voltage, VDD (referenced to ground)

All Inputs and Outputs (referenced to ground)

Ambient Operating Temperature (commercial)

Ambient Operating Temperature (industrial)

Ambient Operating Temperature (automotive)

Storage Temperature

7 V

-0.5 V to VDD+0.5 V

0 to +70° C

-30 to +70° C

-35 to +85° C

-65 to +150° C

125°C

Junction Temperature

Soldering Temperature (10 to 20 seconds max)

260°C

Recommended Operation Conditions

Parameter

Min.

Typ.

Max.

+70

Units

° C

Ambient Operating Temperature (commercial)

Ambient Operating Temperature (industrial)

Ambient Operating Temperature (automotive)

0

-30

-35

+3.0

+70

° C

+85

° C

Power Supply Voltage (measured in respect to GND)

(commercial and industrial)

+5.5

V

Power Supply Voltage (measured in respect to GND)

(automotive)

+3.135

+5.5

V

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DC Electrical Characteristics

Unless stated otherwise,VDD = 3.3 V or 5V, T = 0 to +70°C (commercial), -30°C to +70°C (industrial), -35°C to

A

+85°C (automotive)

Parameter

Symbol

Conditions

Min.

Typ.

Max. Units

Operating Voltage

VDD

Commercial and

industrial

3.0

5.5

V

Operating Voltage

Input High Voltage

Input Low Voltage

Output High Voltage

VDD

Automotive

VDD=5 V

3.135

2

5.5

V

IH

V

0.8

IL

V

I

= -2 mA

VDD-0.4

2.4

OH

VDD=5 V,

= -12 mA

I

OH

Output Low Voltage

V

VDD=5 V,

= 12 mA

0.4

V

OL

I

OL

Input High Voltage

Input Low Voltage

Output High Voltage

V

VDD=3.3 V

VDD=3.3 V,

1.9

2.4

V

IH

V

IL

V

OH

I

= -8 mA

OH

Output Low Voltage

V

VDD=3.3 V,

= 8 mA

V

OL

I

OL

Operating Supply Current

IDD

At VDD=5 V, 300Ω

screen, 100 PPS

5

mA

At VDD=3.3 V, Note 3

Standby, Clock, Note 4

Standby, Note 5

3

mA

µA

0.5

0.2

3

Power down, PD=0 or

PD=1, no clock

Short Circuit Current

Input Capacitance

I

Each output

50

7

mA

pF

OS

C

IN

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AC Electrical Characteristics

Unless stated otherwise,VDD = 3.3 V or 5 V, T = 0 to +70° C (commercial), -30°C to +70°C (industrial), -35°C to

A

+85°C (automotive)

Parameter

Input Clock Frequency, pin 18

Input Clock Duty Cycle, pin 18

Output Rise Time

Symbol

Conditions

Min. Typ. Max. Units

Note 1

12

25

14.32

20

75

3

MHz

%

At 1.5 V

t

0.8 to 2.0 V, VDD=5 V

2.0 to 0.8 V, VDD=5 V

ns

OR

Output Fall Time

t

3

ns

OF

Resolution

12

2

bits

LSB

Ω

Non-linearity

Monotonic, Note 2

Touch Screen Resistance

100

2000

Note 1: Consult with IDT about the best device to use to generate the input clock.

Note 2: With no missing codes.

Note 3: Assumes no 14.3 MHz input clock overshoot, 300Ω screen, 100 PPS.

Note 4: Assumes no 14.3 MHz input clock overshoot, no touch.

Note 5: With no touch, no clock.

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Register Interface Timing

Number

Symbol

Description

Min. Max. Units Note

Read and Write Cycles

1

2

3

TRASC

TRAHC

TRCCY

Address Setup to CS Low

Address Hold from CS High

CS High to CS Low

5

0

ns

40

Read Cycle Only

4

5

TRSCR

TRRD

CS Low to RD Low

RD Pulse Width

10

40

0

ns

6

TRCHR1 RD High to CS High

TRCHR2 RD High to CS Low

7

40

8

TRDC

CS Low to Data

35

20

9

TRDR

RD Low to Data

10

11

TRDHC

TRDHR

CS High to Data Release

RD High to Data Release

2

1

Write Cycle Only

12

13

14

15

16

17

18

19

20

TRCSW

CS Low to WR Low

WR Pulse Width

10

40

0

ns

TRWR

TRCHW

TRWH

WR High to CS High

WR High to CS Low

WR High to WR Low

Data Setup to WR High

Data Hold from WR High

Data Setup to CS High

2

40

15

TRWCY

TRDW

3

4

3

4

TRDHW

TRDWC

TRDHWC Data Hold from CS High

Notes:

1. RD edges may precede or follow CS edges.

2. WR edges may precede or follow CS edges.

3. Either TRDW or TRDWC specification must be met.

4. Either TRDHW or TRDHWC specification must be met.

5. It is not permitted to have both RD and WR low at the same time.

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Register Read

Register Write

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Touchscreen Resistance Graph 1

Touchscreen Resistance Graph 2

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Touchscreen Resistance Graph 3

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Suggested Layout

Notes:

1. The 14.318 MHz input clock on pin 18 should have a 33Ω series termination resistor at its source. Consult IDT for

the best way to generate this clock.

2. All digital signals should be kept well away from pins 4, 5, 6, 7, 8, 9, 10, and 11, and any traces connected to

those pins.

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Package Outline and Package Dimensions (28-pin SOIC, 300 Mil. Wide Body)

Package dimensions are kept current with JEDEC Publication No. 95

28

Millimeters

Inches

Symbol

Min

Max

2.65

—

Min

—

Max

0.104

0.010

—

A

A1

A2

B

—

0.10

--

0.004

0.0040

0.013

0.007

0.697

0.291

E

H

1.50

0.51

0.32

18.40

7.60

INDEX

AREA

0.33

0.18

17.70

7.40

0.020

0.013

0.724

0.299

C

D

E

1 2

e

1.27 Basic

.050 Basic

H

h

10.00

0.25

0.40

0°

10.65

0.75

1.27

8°

0.394

0.010

0.016

0°

0.419

0.029

0.050

8°

D

L

α

A

h x 45

A1

C

- C -

e

SEATING

PLANE

B

L

.10 (.004)

C

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Package Outline and Package Dimensions (28-pin SSOP, 150 Mil. Wide Body)

Package dimensions are kept current with JEDEC Publication No. 95

28

Millimeters

Inches

Symbol

Min

Max

1.75

0.25

1.50

0.30

0.25

10.00

6.20

4.00

Min

0.053

0.004

--

Max

0.069

0.010

.059

A

A1

A2

b

1.35

0.10

--

E1

E

INDEX

AREA

0.20

0.18

9.80

5.80

3.80

0.008

0.007

0.386

0.228

0.150

0.012

0.010

0.394

0.244

0.157

C

D

E

1

2

E1

e

.635 Basic

.025 Basic

D

L

0.40

1.27

0.016

0.050

α

0°

8°

0°

8°

A

2

A

1

c

- C -

e

SEATING

PLANE

b

L

aaa C

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Ordering Information

Part / Order Number

MK712SLF

Marking

MK712SL

Shipping Packaging

Tubes

Package

28-pin SOIC

28-pin SSOP

Temperature

0 to +70° C

-30 to +70° C

0 to +70° C

-35 to +85° C

MK712SLFTR

MK712SILF

Tape and Reel

Tubes

MK712SIL

MK712RLF

MK712RWLF

MK712SILFTR

MK712RLF

Tape and Reel

Tubes

MK712RLFTR

MK712RWLF

MK712RWLFTR

Tape and Reel

Tubes

Tape and Reel

“LF” suffix to the part number are the Pb-Free configuration and are RoHS compliant.

While the information presented herein has been checked for both accuracy and reliability, Integrated Device Technology (IDT) assumes

no responsibility for either its use or for the infringement of any patents or other rights of third parties, which would result from its use. No

other circuits, patents, or licenses are implied. This product is intended for use in normal commercial applications. Any other applications

such as those requiring extended temperature range, high reliability, or other extraordinary environmental requirements are not

recommended without additional processing by IDT. IDT reserves the right to change any circuitry or specifications without notice. IDT

does not authorize or warrant any IDT product for use in life support devices or critical medical instruments.

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Innovate with IDT and accelerate your future networks. Contact:

www.IDT.com

For Sales

800-345-7015

408-284-8200

Fax: 408-284-2775

For Tech Support

www.idt.com/go/clockhelp

Corporate Headquarters

Integrated Device Technology, Inc.

www.idt.com

Technology, Inc. Accelerated Thinking is a service mark of Integrated Device Technology, Inc. All other brands, product names and marks are or may be trademarks or registered

trademarks used to identify products or services of their respective owners.

Printed in USA


型号：	MK712SLF
厂家：	INTEGRATED DEVICE TECHNOLOGY
描述：	TOUCH SCREEN CONTROLLER 触摸屏控制器控制器
文件：	总21页 (文件大小：408K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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