ANRG08 [ETC]
8-Ch Auto Sensitivity Calibration Capacitive Touch Sensor; 8通道自动灵敏度校准电容式触摸传感器![ANRG08](http://pdffile.icpdf.com/pdfupload1/u00001/img/icpdf/ANRG08_898284_icpdf.jpg)
型号: | ANRG08 |
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描述: | 8-Ch Auto Sensitivity Calibration Capacitive Touch Sensor |
文件: | 总46页 (文件大小:1134K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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ANRG08
8-Ch Auto Sensitivity Calibration Capacitive Touch Sensor
SPECIFICATION V2.1
Marketing
Q A
Approval
작성
검토
팀장
JUNE, 2011
ADSemiconductor
ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
Revision History
Rev.
Description of change
Date
Originator
1.0
Initial Release
10.09.29
KD PARK
Initial BF time option
To change chip ID by using OTPROM
2.0
10.12.03
KD PARK
24 SOP, 24 QFN(Full lead type) 추가
Sensing Channels : CS0 – CS7 → CS1 – CS8
Parallel output ports : D0 – D7 → D1 – D8
Marking description 추가 : 16 TSSOP, 24 SOP, 24 QFN type
package
2.1
11.06.09
JY SONG
Recommended Circuit Diagram : CS Pin 에 Rs 직렬저항 추가
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ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
1. Specification
1.1 General Feature
8-Channel capacitive sensor with auto sensitivity calibration
Available LED PWM drive up to 8 (ANRG08FB, ANRG08SC, ANRG08QL)
Multi interface - I2C serial interface / Parallel outputs (ANRG08FB, ANRG08SC, ANRG08QL)
Selectable output operation mode (Single output / Multi output)
Adjustable 256 steps sensitivity
Almost no external component needed
Low current consumption
Embedded common and normal noise elimination circuit
RoHS compliant 16 TSSOP, 24 MLF(Punch type), 24 SOP, 24 QFN(Full lead type) package
1.2 Application
Home appliances (TV, Monitor keypads)
Mobile applications (PMP, MP3, Car navigation)
Membrane switch replacement
Sealed control panels, keypads
Touch screen replacement application
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ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
1.3 Packages
ANRG08FB (24MLF)
ANRG08TA (16TSSOP)
ANRG08SC (24SOP)
ANRG08QL (24QFN)
※ Drawings not to scale
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ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
2 Pin Description
VDD, GND
Supply voltage and ground pin.
R.N.D
Radio frequency Noise Detection pin. Normally, R.N.D pin does not connect to anywhere.
But, in radio frequency noise environment, this pin must form a pattern line on PCB.
CS1~CS8
Capacitive sensor input pins.
VPP
VPP is external supply voltage for OTP writing.
D1~D8
Parallel output ports of CS1~CS8 respectively / LED PWM drive output ports. The structure of these
parallel output ports is open drain NMOS for active low output level operation.
SCL, SDA
SCL is I2C clock input pin and SDA is I2C data input-output pin. These ports have internal pull-up resistor.
In case of not use, this pin must be not connected to any circuitry.
INT
Touch sensing interrupt output pin.
LDO
LDO on-off control output pin.
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ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
2.1 ANRG08TA (16 TSSOP package)
Pin No.
Name
CS2
CS3
CS4
CS5
CS6
CS7
SCL
I/O
Description
Protection
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
1
2
3
4
5
6
7
Analog Input Capacitive sensor input 2
Analog Input Capacitive sensor input 3
Analog Input Capacitive sensor input 4
Analog Input Capacitive sensor input 5
Analog Input Capacitive sensor input 6
Analog Input Capacitive sensor input 7
Digital Input
Digital
I2C clock input
I2C data input-output
8
SDA
VDD/GND
Input / Output Open drain NMOS structure
Ground Supply ground
Analog Input Radio frequency Noise Detection pin
9
GND
R.N.D
N.C.
VDD
10
11
12
VDD/GND
-
-
No Connection
No Connection
-
-
N.C.
Touch sensing interrupt output
Open drain NMOS structure
13
INT
Digital Output
VDD/GND
14
15
16
VPP
VDD
CS1
Power
Power
External OTP writing Power (11.5V~12.5V)
Power (3.0V~5.5V)
GND
GND
Analog Input Capacitive sensor input 1
VDD/GND
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ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
2.2 ANRG08FB (24 MLF package)
Pin No.
Name
CS4
CS5
CS6
CS7
CS8
SCL
I/O
Description
Protection
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
1
2
3
4
5
6
Analog Input Capacitive sensor input 4
Analog Input Capacitive sensor input 5
Analog Input Capacitive sensor input 6
Analog Input Capacitive sensor input 7
Analog Input Capacitive sensor input 8
Digital Input
Digital
Input / Output Open drain NMOS structure
I2C clock input
I2C data input-output
7
SDA
VDD/GND
8
9
GND
R.N.D
LDO
Ground Supply ground
VDD
Analog Input Radio frequency Noise Detection pin
Digital Output LDO on-off control output
VDD/GND
VDD/GND
10
Parallel output of CS1
Digital Output LED PWM drive output1
Open drain NMOS structure
11
12
13
14
15
16
17
18
D1
D2
D3
D4
D5
D6
D7
D8
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
Parallel output of CS2
Digital Output LED PWM drive output2
Open drain NMOS structure
Parallel output of CS3
Digital Output LED PWM drive output3
Open drain NMOS structure
Parallel output of CS4
Digital Output LED PWM drive output4
Open drain NMOS structure
Parallel output of CS5
Digital Output LED PWM drive output5
Open drain NMOS structure
Parallel output of CS6
Digital Output LED PWM drive output6
Open drain NMOS structure
Parallel output of CS7
Digital Output LED PWM drive output7
Open drain NMOS structure
Parallel output of CS8
Digital Output LED PWM drive output8
Open drain NMOS structure
19
20
VPP
INT
Power
Digital Output
Power
External OTP writing Power (11.5V~12.5V)
GND
Touch sensing interrupt output
Open drain NMOS structure
VDD/GND
21
22
23
24
VDD
CS1
CS2
CS3
Power (3.0V~5.5V)
GND
Analog Input Capacitive sensor input 1
Analog Input Capacitive sensor input 2
Analog Input Capacitive sensor input 3
VDD/GND
VDD/GND
VDD/GND
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
2.3 ANRG08SC (24 SOP package)
Pin No.
Name
CS6
I/O
Description
Protection
VDD/GND
VDD/GND
VDD/GND
VDD/GND
1
2
3
4
Analog Input Capacitive sensor input 6
Analog Input Capacitive sensor input 7
Analog Input Capacitive sensor input 8
CS7
CS8
SCL
Digital Input
Digital
Input / Output Open drain NMOS structure
I2C clock input
I2C data input-output
5
SDA
VDD/GND
6
7
GND
Ground Supply ground
VDD
R.N.D
Analog Input Radio frequency Noise Detection pin
VDD/GND
Parallel output of CS1
Digital Output LED PWM drive output1
Open drain NMOS structure
8
D1
D2
D3
D4
D5
D6
D7
D8
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
Parallel output of CS2
Digital Output LED PWM drive output2
Open drain NMOS structure
9
Parallel output of CS3
Digital Output LED PWM drive output3
Open drain NMOS structure
10
11
12
13
14
15
Parallel output of CS4
Digital Output LED PWM drive output4
Open drain NMOS structure
Parallel output of CS5
Digital Output LED PWM drive output5
Open drain NMOS structure
Parallel output of CS6
Digital Output LED PWM drive output6
Open drain NMOS structure
Parallel output of CS7
Digital Output LED PWM drive output7
Open drain NMOS structure
Parallel output of CS8
Digital Output LED PWM drive output8
Open drain NMOS structure
16
17
VPP
INT
Power
Digital Output
Power
External OTP writing Power (11.5V~12.5V)
GND
Touch sensing interrupt output
Open drain NMOS structure
VDD/GND
18
19
20
21
22
23
VDD
CS1
CS2
CS3
CS4
N.C.
Power (3.0V~5.5V)
GND
Analog Input Capacitive sensor input 1
Analog Input Capacitive sensor input 2
Analog Input Capacitive sensor input 3
Analog Input Capacitive sensor input 4
VDD/GND
VDD/GND
VDD/GND
VDD/GND
-
-
No Connection
24
CS5
Analog Input Capacitive sensor input 5
VDD/GND
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
2.4 ANRG08QL (24 QFN package)
Pin No.
Name
CS4
CS5
CS6
CS7
CS8
SCL
I/O
Description
Protection
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
1
2
3
4
5
6
Analog Input Capacitive sensor input 4
Analog Input Capacitive sensor input 5
Analog Input Capacitive sensor input 6
Analog Input Capacitive sensor input 7
Analog Input Capacitive sensor input 8
Digital Input
Digital
Input / Output Open drain NMOS structure
I2C clock input
I2C data input-output
7
SDA
VDD/GND
8
9
GND
R.N.D
LDO
Ground Supply ground
VDD
Analog Input Radio frequency Noise Detection pin
Digital Output LDO on-off control output
VDD/GND
VDD/GND
10
Parallel output of CS1
Digital Output LED PWM drive output1
Open drain NMOS structure
11
12
13
14
15
16
17
18
D1
D2
D3
D4
D5
D6
D7
D8
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
VDD/GND
Parallel output of CS2
Digital Output LED PWM drive output2
Open drain NMOS structure
Parallel output of CS3
Digital Output LED PWM drive output3
Open drain NMOS structure
Parallel output of CS4
Digital Output LED PWM drive output4
Open drain NMOS structure
Parallel output of CS5
Digital Output LED PWM drive output5
Open drain NMOS structure
Parallel output of CS6
Digital Output LED PWM drive output6
Open drain NMOS structure
Parallel output of CS7
Digital Output LED PWM drive output7
Open drain NMOS structure
Parallel output of CS8
Digital Output LED PWM drive output8
Open drain NMOS structure
19
20
VPP
INT
Power
Digital Output
Power
External OTP writing Power (11.5V~12.5V)
GND
Touch sensing interrupt output
Open drain NMOS structure
VDD/GND
21
22
23
24
VDD
CS1
CS2
CS3
Power (3.0V~5.5V)
GND
Analog Input Capacitive sensor input 1
Analog Input Capacitive sensor input 2
Analog Input Capacitive sensor input 3
VDD/GND
VDD/GND
VDD/GND
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ADSemiconductor®
ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
3 Absolute Maximum Rating
Battery supply voltage
6V
Maximum voltage on any pin VDD+0.3
Maximum current on any PAD 100mA
Power Dissipation
800mW
Storage Temperature
Operating Temperature
Junction Temperature
-50 ~ 150℃
-20 ~ 75℃
150℃
Note : Unless any other command is noted, all above are operated in normal temperature.
4 ESD & Latch-up Characteristics
4.1 ESD Characteristics
Mode
Polarity
Max
Reference
8000V
8000V
8000V
500V
VDD
VSS
H.B.M
Pos / Neg
P to P
VDD
M.M
Pos / Neg
500V
VSS
500V
P to P
C.D.M
-
1000V
Field Induced Charge
4.2 Latch-up Characteristics
Mode
Polarity
Positive
Negative
Positive
Max
100mA
-100mA
8.5V
Reference
JESD78A
I Test
V supply over 5.0V
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
5 Electrical Characteristics
▪ Note : VDD=3.3V, Typical system frequency (Unless otherwise noted), TA = 25℃
Characteristics
Symbol
Test Condition
Min
Typ
Max
Units
Power supply requirement and current consumption
Operating voltage
OTP writing voltage
VDD
VPP
3.0
5.5
V
V
11.5
12
12.5
VDD =
3.3V
Current consumption
IDD
Standby state @10MHz
-
0.75
-
㎃
Reset and input level
Internal reset voltage
Input high level
VDD_RST
VIH
VIL
TA = 25℃
| IIH | ≤ +5μA
| IIL | ≤ +5μA
-
VDD*0.6
2.6
-
VDD+0.3
V
V
V
Input low level
–0.3
-
VDD*0.3
Slow calibration speed
Normal calibration speed
Fast calibration speed
100
80
-
-
-
Self calibration time after
system reset
TCAL
-
msec
-
60
Internal P/U resister of
SDA, SCL, INT and LDO
Touch sensing performance
Minimum detective
capacitance difference
Sense input
RP/U
-
30
-
kΩ
ΔCMIN
CS
0.1
-
-
-
-
㎊
㎊
Ω
50
capacitance range1
Output impedance
(open drain)
ΔC > ΔCMIN
ΔC < ΔCMIN
-
-
12
-
-
Zo
30M
System performance
Max. output current
(LED drive current)
LED PWM control2
Sensitivity control3
IOUT
Per unit drive output port
-
-
8.0
㎃
NPWM
-
-
16
256
-
-
step
step
Max. I2C SCL clock speed
Touch expired time
LDO control output high
level
fSCL_MAX
TEX
Maximum internal I2C clock
Normal calibration speed
-
-
-
30
2
-
MHz
sec
VOH
VOL
VDD*0.9
-
-
-
-
V
V
LDO control output low
level
VDD*0.1
1
The sensitivity can be decreased with higher parallel capacitance of CS pin including parasitic capacitance made by
neighbor GND or other pattern. The series resistor(under 1kΩ) of CS can be used in noisy condition to avoid mal-function
from external surge and ESD.
2
Refer to the chapter 8.2.12. LED luminance control register
3
Refer to the chapter 8.2.9. Sensitivity register
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
6 ANRG08 Implementation
6.1 Typical current consumption
ANRG08 uses internal bias circuit, so internal clock frequency and current consumption is fixed
and no external bias circuit is needed. Internal clock frequency and calibration speed can be
changed by I2C register setting4. Faster calibration speed needs more current consumption than
normal or slower calibration speed. Slow calibration speed isn’t recommended if it has not
problem of current consumption.
Internal bias circuit can make the circuit design simple and reduce external components.
6.2 CS implementation
ANRG08 has 256 step selections of sensitivity and internal surge protection resister. Sensitivity
of each sensing channel (CS) can be independently controlled on others. External components
of CS pin such as series resistor or parallel capacitor isn’t necessary. The parallel parasitic
capacitance of CS pins caused by touch line, touch pad and neighbor GND or other pattern
may affect sensitivity. The sensitivity will be decreased when bigger parallel parasitic
capacitance of CS pin is added.
Parallel capacitor (CS1~S8) of CS pin is useful in case of detail sensitivity mediation is required
such as for complementation sensitivity difference between channels. Same as above parallel
parasitic capacitance, sensitivity will be decreased when a big value of parallel capacitor
(CS1~S8) is used. Under 50pF capacitor can be used as sensitivity meditation capacitor and a
few pF is usually used. The RS, serial connection resistor of CS pins, may be used to avoid
mal-function from external surge and ESD. (It might be optional.) From 200Ω to 1kΩ is
recommended for RS. Refer to below CS pins application figure.
RS8
CS8<<
Touch PAD8
CS8
RS1
Touch PAD1
CS1<<
CS1
4
Refer to 8.2.5 Clock control register.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
The ANRG08 has eight independent touch sensor input from CS1 to CS8. The internal touch
decision process of each channel is separated from others. Therefore eight channel touch key
board application can be designed by using only one ANRG08 without coupling problems.
The size and shape of PAD might have influence on the sensitivity. The sensitivity will be optimal
when the size of PAD is approximately an half of the first knuckle (it’s about 10 ㎜x 7 ㎜). The
connection line of CS to touch PAD is recommended to be routed as short as possible to
prevent from abnormal touch detect caused by connection line. The unused CS pin should not
be connected with the ground.
6.3 LED drive implementation (ANRG08FB, ANRG08SC, ANRG08QL)
ANRG08 has a function to control the LED using D1~D8 ports. For using D1~D8 as LED driver
ports, LEDs and resisters must be equipped as below figure, and write the ‘port_mode” register5
as ‘1’. D1 ~ D8 ports can drive LEDs by ‘PWM_ctrlx’ register6 control. ANRG08 can drive up to 8
LED as below method.
VDD
VDD
LED1
LED8
RD8
RD1
D1 <<
D8 <<
6.4 Parallel output (D1~D8 implementation, ANRG08FB, ANRG08SC,
ANRG08QL)
ANRG08 acts as active low parallel output mode. Structures of D1~D8 are same. In case of
active low parallel output mode, parallel output ports (D1~D8) have an open drain NMOS
structure. For this reason, the parallel output mode of ANRG08 needs ROUT as below figures.
The maximum output drive current is 8mA, so over a few kΩ must be used as ROUT. Normally
10kΩ is used as ROUT
.
5
Refer to the chapter 8.2.13. Port mode control register
6
Refer to the chapter 8.2.12. LED luminance control register
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
VDD
ROUT1
ROUT2
OUTPUT1
D1
OUTPUT2
D2
ROUT8
OUTPUT8
D8
Active low parallel output mode circuit
6.5 INT (Interrupt output) Implementation
An INT pin is for the touch sensing interrupt output. The interrupt pulse is generated only during
short period of every each channel touch start point and touch end point. Interrupt pulse has
logical low level. INT has NMOS open drain structure and internal pull-up resister of which value
is 30kΩ typical.
6.6 LDO implementation (ANRG08FB, ANRG08QL)
LDO pin acts as LDO on-off control output pin. Because of internal pull-up resister of LDO,
external pull-up resister can be removed. Writing ‘1’ on ‘micom_sleep’ bit of ‘global_ctrl0’
register7 make LDO output low. This low LDO output can be used as LDO which offers MCU
power off signal. Any touch output writes ‘0’ on ‘micom_sleep’ bit of ‘global_ctrl0’ register, and
LDO output level becomes high again.
7
Refer to the chapter 8.2.2. Global option control 0.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
6.7 Change initial reset register values (OTP writing)
ANRG08 has eight integrated OTP (One Time Programmable) ROM cells. So, initial reset register
values can be rewritten up to eight times. One OTP ROM cell size is 64-byte. User can write the
data eight times to the OTP.
There are three operation modes about OTP read/write. These are automatically load operation
mode, writing operation mode and reading operation mode.
Automatically load operation mode
After power reset, ANRG08 start to read the LSB of 00H address in each OTP ROM cells from
8th to 1st. ANRG08 automatically loads the data of the first OTP ROM cell of which LSB of 00H
address has ‘0’ into the control register. And then ANRG08 is starting to work with control
register values that are loaded from OTP ROM cell. If there are no OTP ROM cell which has ‘0’ in
LSB of 00H address, ANRG08 is working with initial control register value.
Writing operation mode
OTP ROM cell writing provides the flexible reset register values that control all the operation
options of ANRG08. So, additional communication programs on MCU for operation option
select or register value setting are not required.
There are two writing operation modes. When the ‘write_all’ bit of ‘mtp_cmd’ register8 is ‘0’,
single byte writing mode is activated. User can select OTP ROM cell and address on which new
register value is wanted to be written. OTP ROM cell selection is enabled by writing ‘mtp_sel_en’
bit of ‘usr_mtp_sel’ register9 ‘1’. When ‘mtp_sel_en’ bit of ‘usr_mtp_sel’ register is ‘0’, OTM ROM
cell is automatically selected from 1st to 8th. And, ‘org_usr_mtp_sel’ bits of ‘usr_mtp_sel’
register are for the OTP ROM selection. Read or write command register is ‘mtp_cmd’ registers
and user can start writing by ‘wr_start’ bit of ‘mtp_cmd’ register setting as ‘1’. This ‘wr_start’ bit
of ‘mtp_cmd’ register is recovered as ‘0’ at ending of writing.
When the ‘write_all’ bit of ‘mtp_cmd’ register is ‘1’, all bytes writing operation mode is activated.
User can write all register frame data on selected OTP ROM cell. At this writing operation mode,
only OTP ROM cell has to be selected. Writing start is same as single byte writing mode.
OTP ROM writing needs another 11.5V power supply voltage. VPP pin is for this writing 11.5V
power.
Reading operation mode
When OTP ROM data is required to be read, user can read all the OTP ROM cell date by reading
operation. When the ‘read_all’ bit of ‘mtp_cmd’ register is ‘0’, user can read one byte data that
is written on selected address of selected OTP ROM cell. OTP ROM cell and address selection
are same as single byte writing operation mode. When ‘mtp_sel_en’ bit of ‘usr_mtp_sel’ register
is ‘0’, OTM ROM cell is automatically selected from 8th to 1st.
When the ‘read_all’ bit of ‘mtp_cmd’ register is ‘1’, user can read all data on selected OTP ROM
cell.
OTP ROM read start command bit is ‘rd_start’ bit of ‘mtp_cmd’ register. When the ‘rd_start’ bit
of ‘mtp_cmd’ register is ‘1’, ANRG08 starts to read. This ‘rd_start’ bit of ‘mtp_cmd’ register is
recovered as ‘0’ at ending of reading.
8
Refer to the chapter 8.2.18. OTP ROM control register.
9
Refer to the chapter 8.2.17. OTP ROM cell select register.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
6.8 SCL, SDA implementation
SCL is I2C clock input and SDA is I2C data input-output. These ports have internal pull-up
resistor. SCL has Schmitt trigger input structure to prevent clock signal from being broken.
Maximum supported I2C clock frequency is 2MHz. SDA has NMOS open drain structure and
internal pull-up resister of which value is 30kΩ typical. So, according to communication speed
a few kΩ resister must be used as pull-up resister for proper data pulse rising time. For more
details refer to ‘Chapter 7. I2C Interface’.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
7 I2C Interface
7.1 I2C Enable / Disable
If the SDA or SCL signal goes to low, I2C control block is enabled automatically. And if the SDA
and SCL signal maintain high during about 2 us, I2C control block is disabled automatically also.
7.2 Start & stop condition
Start Condition (S)
Stop Condition (P)
Repeated Start (Sr)
7.3 Data validity
The SDA should be stable when the SCL is high and the SDA can be changed when the SCL is
low.
7.4 Byte format
The byte structure is composed with 8Bit data and an acknowledge signal.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
7.5 Acknowledge
It is a check bit whether the receiver gets the data from the transmitter without error or not. The
receiver will write ‘0’ when it received the data successfully and ‘1’ if not.
7.6 First byte
7.6.1 Slave address
It is the first byte from the start condition. It is used to access the slave device. The initial chip
address of ANRG08 is ‘48’ hex number and the chip address is possible to change with “I2C
Address of ANRG08” register10.
─
7.6.2 R/W
The direction of data is decided by the bit and it follows the address data.
MSB
LSB
─
R/W
Address
7 bit
1bit
10
Refer to the chapter 8.2.3. I2C address of ANRG08.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
7.7 Transferring data
7.7.1 Write operation
The byte sequence is as follows:
1. The first byte gives the device address plus the direction bit (R/W = 0).
2. The second byte contains the internal address of the first register to be accessed.
3. The next byte is written in the internal register. Following bytes are written in successive
internal registers.
4. The transfer lasts until stop conditions are encountered.
5. The ANRG08 acknowledges every byte transfer.
7.7.2 Read operation
The address of the first register to read is programmed in a write operation without data, and
terminated by the stop condition. Then, another start is followed by the device address and
R/W= 1. All following bytes are now data to be read at successive positions starting from the
initial address.
7.7.3 Read/Write Operation
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
7.8 I2C write and read operations in normal mode
The following figure represents the I2C normal mode write and read registers.
☞ Write register 0x00 to 0x01 with data AA and BB
Device
Address 0x48
Register
Address 0x00
Start
ACK
ACK
Data AA
ACK
Data BB
ACK
Stop
Read register 0x00 and 0x01
Device
Address 0x48
Register
Address 0x00
Start
ACK
ACK
ACK
Stop
Device
Start
ACK
Data Read AA
Data Read BB
Stop
ACK
Address 0x49
From Slave to Master
From Master to Slave
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8 ANRG08 Control Register List
Note: The unused bits (defined as reserved) in I2C registers must be kept to zero.
Note: The reset value of ANRG08 can be changed by MTP ROM writing.
8.1 I2C Register Map
Reset
Bit name of each bytes
Addr.
Name
Value
(Bin)
(Hex)
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
ch_enable
/soft_rst
01H 1111 1111
05H 1--- 0---
ch8_en
1
ch7_en
-
ch6_en
-
ch5_en
ch4_en
ch3_en
-
ch2_en
-
ch1_en
global_ctrl0
i2c_id
-
micom_sleep
-
06H 0100 1000
2AH 0000 0000
34H 0000 0110
36H 0100 1100
37H 0101 1111
38H 0001 11-0
39H 0001 1100
3AH 0001 1100
3BH 0001 1100
3CH 0001 1100
3DH 0001 1100
3EH 0001 1100
3FH 0001 1100
40H 0001 1100
41H 0000 0000
42H 0000 0000
43H 0000 0000
44H 0000 0000
45H 0000 0000
46H 0000 0000
4FH 0000 0000
50H 0000 0000
i2c_id
wr_bit
o_ch1
output
o_ch8
o_ch7
init_cal_opt
response_off_ctrl
1
o_ch6
0
o_ch5
o_ch4
o_ch3
o_ch2
bf_mode
-
clock_ctrl
sts_clr_en
clk_sel
response_ctrl
rb_sel
global_ctrl1
state_count
global_ctrl2
sensitivity1
sensitivity2
sensitivity3
sensitivity4
sensitivity5
sensitivity6
sensitivity7
sensitivity8
cal_speed
cal_BS_speed
PWM_ctrl1
PWM_ctrl2
PWM_ctrl3
PWM_ctrl4
port_mode
rd_ch_H1
software_rst
0
cal_pre_scaler
imp_sel
sin_multi_mode
cal_hold_time
clk_off
sensitivity01
sensitivity02
sensitivity03
sensitivity04
sensitivity05
sensitivity06
sensitivity07
sensitivity08
rnd_bf_up
rnd_bs_up
rnd_bf_down
rnd_bs_down
sen_bf_up
sen_bs_up
sen_bf_down
sen_bs_down
pwm_d2
pwm_d4
pwm_d6
pwm_d8
pwm_d1
pwm_d3
pwm_d5
pwm_d7
pmod_d8
pmod_d7
pmod_d6
pmod_d5
pmod_d4
pmod_d3
pmod_d2
pmod_d1
rd_ch_L1
rd_ch_H1
rd_ch_L1
51H
---- ---0
-
-
-
-
-
-
-
Percent_H
Percent_M
Percent_L
rd_ch_H2
52H 0000 0000
53H 0000 0000
54H 0000 0000
56H 0000 0000
touch_percent[24:17]
touch_percent[16:9]
touch_percent[8:1]
rd_ch_H2
rd_ch_L2
57H
59H
---- ---0
---- 00r0
-
-
-
-
-
-
-
rd_ch_L2
RAM_ctrl
clk_mtp_opt
ram_chk_end
ram_chk_start
RAM_data
usr_mtp_sel
mtp_cmd
5AH 0000 0000
5BH 0000 0000
5CH 0000 0000
ram_check_data
0
0
-
0
0
0
mtp_sel_en
read_all
org_usr_mtp_sel
write_all
0
0
wr_start
rd_start
mtp_status
otp_add_sel
otp_wr_data
otp_rd_data
5DH
---- ----
org_mtp_sel
wr_done_sts
otp_add_sel
rd_done_sts
no_load_sts
5EH 0000 0000
5FH 0000 0000
0
0
otp_wr_data
otp_rd_data
60H
---- ----
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2 Details
8.2.1 Channel enable / reset register
Type: R/W
Address
Register Name
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
ch_enable
/soft_rst
ch8_en
ch7_en
ch6_en
ch5_en
ch4_en
ch3_en
ch2_en
ch1_en
01h
Description
Enable, disable and reset of each channel control register.
Bit name
Reset value
Function
Channel enable / disable and Channel reset (chx_en is control bit for CSx channel)
0 : Channel disable and sensing channel reset
1 : Channel enable
chx_en
1
8.2.2 Global option control register 0
Type: R/W
Address
Register Name
global_ctrl0
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
micom_
sleep
1
0
-
-
-
-
-
05h
Description
Operation mode selection and LDO ON/OFF signal control register.
Bit name
Reset value
Function
LDO output control register. This signal can go out through LDO port.
micom_
sleep
0
0 : LDO ON
1 : LDO OFF
8.2.3 I2C address of ANRG08
Type: R/W
Address
06h
Register Name
i2c_id
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
i2c_id
wr_bit
Description
Chip address of ANRG08 control register. User can change this address value with OTP ROM write. During
reset period OTP ROM data is loaded to registers.
Bit name
wr_bit
Reset value
0
Function
Write/Read address selection - 0 : Write address, 1 : Read address
Chip address of ANRG08.
i2c_id
0100100
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.4 Output data
Type: R
Address
2Ah
Register Name
output
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
o_ch8
o_ch7
o_ch6
o_ch5
o_ch4
o_ch3
o_ch2
o_ch1
Description
The output data register from channel 1 to channel 8.
Bit name
Reset value
Function
o_chx is output bit for CSx channel
0 : No touch detected
o_chx
0
1 : Touch detected
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.5 Clock control register
Type: R/W
Address
Register Name
clock_ctrl
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
sts_clr_e
n
init_cal_opt
clk_sel
rb_sel
34h
Description
This register controls the global options of ANRG08
Bit name
Reset value
Function
ANRG08 provides three internal calibration speeds with this register.
00, 01 : Fast
10 : Normal
11 : Slow
rb_sel
10
ANRG08 provides four internal calibration speeds with this register.
00 : Fast
clk_sel
01
01 : Normal
10 : Slow
11 : Slowest
Clear the „mtp_status‟ register (Address: 5DH) control bit.
sts_clr_en
0
0 : Not clear
1 : Clear
To control the initial BF time.
init_cal_opt
000
init_cal_opt[2:0] * 5 + 5 (seconds)
8.2.6 Global option control register 1
Type: R/W
Address
Register Name
global_ctrl1
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
software
_rst
response_off_ctrl
response_ctrl
bf_mode
36h
Description
This register controls the global options of ANRG08
Bit name
Reset value
Function
Software reset control bit.
0 : Not reset
software_rst
0
1 : Reset
Operation mode selection
0 : Normal mode
1 : BF mode
bf_mode
0
Numbers of continuous touch detections for touch decision.
response_ctrl[2:0] + 1 (Maximum time : 7)
response_ctrl
011
010
Numbers of continuous touch off detections for touch off decision.
response_off_ ctrl[2:0] + 1 (Maximum time : 7)
response_off_ctrl
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.7 State count control register
Type: R/W
Address
Register Name
state_count
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
0
1
0
cal_pre_scaler
37h
Description
Register to set the number of the continuous inputted noise through RND channel and to set the pre-scaler for
the calibration speed.
Bit name
Reset value
Function
The pre-scaler for the calibration speed.
cal_pre_scaler
1 1111
cal_pre_scaler[4:0] x 16ms (1-period)
8.2.8 Global option control register 2
Type: R/W
Address
38h
Register Name
global_ctrl2
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
sin_mult
i_mode
imp_sel
cal_hold_time
-
clk_off
Description
This register controls the global options of ANRG08.
Bit name
Reset value
Function
System clock off control bit.
0 : Not clock off
clk_off
0
1 : Clock off
cal_hold_tim
e
Output expiration Time control.
0111
0
cal_hold_time[3:0] x 4 ( seconds)
Single/Multi output operation mode selection bit.
0 : Single output mode
sin_multi_mo
de
1 : Multi output mode
Impedance of the sensing wire of all channels control bit.
0 : High impedance
imp_sel
0
1 : Low impedance except sensing period.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.9 Sensitivity register
Type: R/W
Address
39H
Register Name
sensitivity1
sensitivity2
sensitivity3
sensitivity4
sensitivity5
sensitivity6
sensitivity7
sensitivity8
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
sensitivity01
sensitivity02
sensitivity03
sensitivity04
sensitivity05
sensitivity06
sensitivity07
sensitivity08
3AH
3BH
3CH
3DH
3EH
3FH
40H
Description
This register controls the global options of ANRG08.
Bit name
Reset value
Function
Sensitivities of each channel.
sensitivity0x
0001 1100
Sensitivity of CSx channel: {(sensitivity0x[7:0] x 0.025)} (%).
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.10 Calibration speed control register
Type: R/W
Address
41H
Register Name
cal_speed
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
rnd_bf_up
rnd_bf_down
sen_bf_up
sen_bf_down
Description
Calibration speed can be controlled by this „cal_speed‟ register at BF mode.
Bit name
Reset value
Function
Sense channel down calibration speed at BF mode control bits.
00 : Fastest
01 : Fast
sen_bf_down
00
10 : Normal
11 : Slow
Sense channel up calibration speed at BF mode control bits.
00 : Fastest
01 : Fast
10 : Normal
11 : Slow
sen_bf_up
rnd_bf_down
rnd_bf_up
00
00
00
RND channel down calibration speed at BF mode control bits.
00 : Fastest
01 : Fast
10 : Normal
11 : Slow
RND channel up calibration speed at BF mode control bits.
00 : Fastest
01 : Fast
10 : Normal
11 : Slow
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.11 Calibration speed control register at BS mode
Type: R/W
Address
42H
Register Name
cal_BS_speed
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
rnd_bs_up
rnd_bs_down
sen_bs_up
sen_bs_down
Description
Calibration speed can be controlled by this „cal_BS_speed‟ register at BS mode.
Bit name
Reset value
Function
Sense channel down calibration speed at BS mode control bits.
00 : Fastest
01 : Fast
sen_bs_down
00
10 : Normal
11 : Slow
Sense channel up calibration speed at BS mode control bits.
00 : Fastest
01 : Fast
10 : Normal
11 : Slow
sen_bs_up
rnd_bs_down
rnd_bs_up
00
00
00
RND channel down calibration speed at BS mode control bits.
00 : Fastest
01 : Fast
10 : Normal
11 : Slow
RND channel up calibration speed at BS mode control bits.
00 : Fastest
01 : Fast
10 : Normal
11 : Slow
8.2.12 LED luminance control register
Type: R/W
Address
43h
Register Name
PWM_ctrl1
PWM_ctrl2
PWM_ctrl3
PWM_ctrl4
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
pwm_d2
pwm_d1
pwm_d4
pwm_d6
pwm_d8
pwm_d3
pwm_d5
pwm_d7
44h
45h
46h
Description
LED luminance can be controlled by “PWM_ctrlx” register.
Bit name
Reset value
Function
The LED PWM control bits of Dx port.
0000 : The minimum low duty
pwm_dx
0000
1111 : The maximum low duty
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.13 Port mode control register
Type: R/W
Address
Register Name
port_mode
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
pmod_d
8
pmod_d
7
pmod_d
6
pmod_d
5
pmod_d
4
pmod_d
3
pmod_d
2
pmod_d
1
4Fh
Description
This register controls the mode of output port.
Bit name
Reset value
Function
Select the output port operation mode of each channels.
0 : Parallel output mode
pmod_dx
0
1 : LED drive mode
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.14 Sense, reference count read register
Type: R
Address
50h
Register Name
rd_ch_H1
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
rd_ch_H1
rd_ch_L1
-
-
-
-
-
-
-
rd_ch_L1
51h
touch_percent[24:17]
touch_percent[16:9]
touch_percent[8:1]
rd_ch_H2
Percent_H
Percent_M
Percent_L
rd_ch_H2
52h
53h
54h
56h
rd_ch_L2
-
-
-
-
-
-
-
rd_ch_L2
57h
Description
ANRG08 provides the special function to read sense count of each channels or reference count.
Bit name
Reset value
Function
Read channel indication register.
00000001 : R.N.D channel
00000010 : CS1 channel
00000100 : CS2 channel
00001000 : CS3 channel
00010000 : CS4 channel
00100000 : CS5 channel
01000000 : CS6 channel
10000000 : CS7 channel
rd_ch_H1
Read only
Read channel indication register.
1 : CS8 channel
rd_ch_L1
Read only
Read only
Read only
Read only
The percent data of RND channel and sense channels.
[24:17] bits of the touch percent data.
touch_percent[24:17]
touch_percent[16:9]
touch_percent[8:1]
The percent data of RND channel and sense channels.
[16:9] bits of the touch percent data.
The percent data of RND channel and sense channels.
[8:1] bits of the touch percent data.
Read channel confirm register.
00000001 : R.N.D channel
00000010 : CS1 channel
00000100 : CS2 channel
00001000 : CS3 channel
00010000 : CS4 channel
00100000 : CS5 channel
01000000 : CS6 channel
10000000 : CS7 channel
rd_ch_H2
rd_ch_L2
Read only
Read only
Read channel confirm register.
1 : CS8 channel
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.15 Ram control register
Type: R/W
Address
Register Name
RAM_ctrl
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
ram_chk_en ram_chk_sta
clk_mtp_opt
59h
d
rt
Description
These registers are the command register and status register for RAM access.
Bit name
Reset value
Function
ram_chk_star
t
0
RAM cells check start command bit
RAM cells check finish status bit
ram_chk_end
Read only
Clock division register for MTP reading and writing.
00 : Fast
clk_mtp_opt
00
01 : Normal
10 : Slow
11 : Slowest
8.2.16 Ram check data register
Type: R/W
Address
5Ah
Register Name
RAM_data
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
ram_check_data
Description
This register is the data register for RAM check.
Bit name
Reset value
Function
ram_check_d
ata
0000 0000
The data register to test the RAM interface and RAM cells.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.17 OTP ROM cell select register
Type: R/W
Address
5Bh
Register Name
usr_mtp_sel
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
0
0
0
mtp_sel_en
org_usr_mtp_sel
Description
The OTP ROM cells of ANRG08 are made up of eight memory cells of 64 bytes. ANRG08 provides the way to
access OTP ROM cells with this register. User can select the OTP ROM cell with „org_usr_mtp_sel‟ bits and if
user doesn‟t want to select the OTP ROM cell directly, „mtp_sel_en‟ bit leaves „0‟, then OTP ROM cell is
selected the automatically.
Bit name
Reset value
Function
OTP ROM cell selection bits.
0000, 0001 : 1st OTP ROM cell
0010 : 2nd OTP ROM cell
0011 : 3rd OTP ROM cell
0100 : 4th OTP ROM cell
0101 : 5th OTP ROM cell
0110 : 6th OTP ROM cell
0111 : 7th OTP ROM cell
1000 : 8th OTP ROM cell
org_usr_mtp_
sel
0000
OTP ROM cell selection enable bit.
mtp_sel_en
0
0 : Select OTP ROM cell automatically
1 : Select OTP ROM cell by user
8.2.18 OTP ROM control register (OTP ROM command)
Type: R/W
Address
5Ch
Register Name
mtp_cmd
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
0
0
write_all
read_all
0
0
wr_start
rd_start
Description
OTP ROM commands to access.
Bit name
Reset value
Function
Reading selected OTP ROM cell start command bit.
rd_start
0
0 : Don‟t start
1 : Start to read
Writing on selected OTP ROM cell start command bit.
0 : Don‟t write
wr_start
read_all
write_all
0
0
0
1 : Start to write
Unit of reading the selected OTP ROM cell control bit.
0 : 1-Byte reading
1 : All bytes of selected OTP ROM cell reading
Unit of writing on selected OTP ROM cell control bit.
0 : 1-Byte writing
1 : All bytes of selected OTP ROM cell writing
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.19 OTP ROM status register
Type: R
Address
Register Name
mtp_status
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
wr_done
_sts
rd_done
_sts
no_load_
sts
-
org_mtp_sel
5Dh
Description
This register indicates the status of operation of selected one OTP ROM cell.
Bit name
Reset
Function
This bit indicates whether some data are loaded from OTP ROM cells.
0 : There is some data loaded from OTP ROM cells
1 : No data loaded from OTP ROM cells
no_load_sts
-
This bit indicates the end of reading.
rd_done_sts
wr_done_sts
-
-
0 :
1 : End of reading
This bit indicates the end of writing.
0 :
1 : End of writing
These bits indicate that OTP ROM cell is loaded at initial time.
0000 : No loaded
0001 : 1st OTP ROM cell
0010 : 2nd OTP ROM cell
0011 : 3rd OTP ROM cell
org_mtp_sel
-
0100 : 4th OTP ROM cell
0101 : 5th OTP ROM cell
0110 : 6th OTP ROM cell
0111 : 7th OTP ROM cell
1000 : 8th OTP ROM cell
8.2.20 OTP ROM data address select register
Type: R/W
Address
5Eh
Register Name
otp_add_sel
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
0
0
otp_add_sel
Description
Register for the specific address of selected OTP ROM cell. User can access OTP ROM data of specific address
by leaving „read_all‟ and „write_all‟ bits in the „mtp_cmd‟ register „0‟, selecting the OTP ROM cell with
„usr_mtp_sel‟ register and selecting the specific address with this register.
Bit name
Reset
Function
Select specific address of selected OTP ROM cell.
otp_add_sel[5:0] : Address
otp_add_sel
000000
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
8.2.21 OTP ROM data register to write
Type: R/W
Address
5Fh
Register Name
otp_wr_data
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
otp_wr_data
Description
The data register to write on specific address of selected OTP ROM cell.
Bit name
Reset
Function
Data register to write.
otp_wr_data[7:0] : Data
otp_wr_data
00000000
8.2.22 OTP data register to read
Type: R
Address
60h
Register Name
otp_rd_data
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
otp_rd_data
Description
The data register for reading data from specific address of selected OTP ROM cell.
Bit name
Reset
Function
Data register for reading OTP ROM data.
otp_rd_data [7:0] : Data
otp_rd_data
---- ----
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
9 Recommended Circuit Diagram
9.1 ANRG08TA (16 TSSOP)
ANRG08TA (16TSSOP) Application Example Circuit for parallel output
ANRG08TA is reset by internal reset circuit. VDD voltage rising time should be shorter than 100msec
for proper operation.
The VDD periodic voltage ripple over 50mV and the ripple frequency is lower than 10 kHz can cause
wrong sensitivity calibration. To prevent above problem, power (VDD, GND) line of touch circuit
should be separated from other circuit. Especially LED driver power line or digital switching circuit
power line certainly should be treated to be separated from touch circuit.
The CS patterns also should be routed as short as possible and the width of line might be about 0.25mm.
Parallel capacitor of CS pin could be useful in case detail sensitivity mediation is required such as for
complementation sensitivity difference between channels.
Serial connection resistor of CS pins may be used to avoid mal-function from external surge and ESD.
The capacitor that is between VDD and GND is an obligation. It should be located as close as possible
from ANRG08TA.
The CS pattern routing should be formed by bottom metal (opposite metal of touch PAD).
The empty space of PCB must be filled with GND pattern to strengthen GND pattern and to prevent
external noise from interfere with sensing frequency.
„VPP‟ pin for 12V voltage input is needed at MTP ROM writing only.
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9.2 ANRG08FB (24 MLF)
ANRG08FB (24 MLF) Application Example Circuit
ANRG08FB is reset by internal reset circuit. VDD voltage rising time should be shorter than 100msec
for proper operation.
Normally, R.N.D pin dose not connection to anywhere. But, in radio frequency noise environment,
R.N.D pin must form a pattern line on PCB.
The VDD periodic voltage ripple over 50mV and the ripple frequency is lower than 10 kHz can cause
wrong sensitivity calibration. To prevent above problem, power (VDD, GND) line of touch circuit
should be separated from other circuit. Especially LED driver power line or digital switching circuit
power line certainly should be treated to be separated from touch circuit.
The CS patterns also should be routed as short as possible and the width of line might be about 0.25mm.
Parallel capacitor of CS pin could be useful in case detail sensitivity mediation is required such as for
complementation sensitivity difference between channels.
Serial connection resistor of CS pins may be used to avoid mal-function from external surge and ESD.
The capacitor that is between VDD and GND is an obligation. It should be located as close as possible
from ANRG08FB.
The CS pattern routing should be formed by bottom metal (opposite metal of touch PAD).
The empty space of PCB must be filled with GND pattern to strengthen GND pattern and to prevent
external noise from interfere with sensing frequency.
„VPP‟ pin for 12V voltage input is needed at MTP ROM writing only.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
9.3 ANRG08SC (24 SOP)
ANRG08SC (24 SOP) Application Example Circuit
ANRG08SC is reset by internal reset circuit. VDD voltage rising time should be shorter than 100msec
for proper operation.
Normally, R.N.D pin dose not connection to anywhere. But, in radio frequency noise environment,
R.N.D pin must form a pattern line on PCB.
The VDD periodic voltage ripple over 50mV and the ripple frequency is lower than 10 kHz can cause
wrong sensitivity calibration. To prevent above problem, power (VDD, GND) line of touch circuit
should be separated from other circuit. Especially LED driver power line or digital switching circuit
power line certainly should be treated to be separated from touch circuit.
The CS patterns also should be routed as short as possible and the width of line might be about 0.25mm.
Parallel capacitor of CS pin could be useful in case detail sensitivity mediation is required such as for
complementation sensitivity difference between channels.
Serial connection resistor of CS pins may be used to avoid mal-function from external surge and ESD.
The capacitor that is between VDD and GND is an obligation. It should be located as close as possible
from ANRG08SC.
The CS pattern routing should be formed by bottom metal (opposite metal of touch PAD).
The empty space of PCB must be filled with GND pattern to strengthen GND pattern and to prevent
external noise from interfere with sensing frequency.
„VPP‟ pin for 12V voltage input is needed at MTP ROM writing only.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
9.4 ANRG08QL (24 QFN)
ANRG08QL (24 QFN) Application Example Circuit
ANRG08QL is reset by internal reset circuit. VDD voltage rising time should be shorter than 100msec
for proper operation.
Normally, R.N.D pin dose not connection to anywhere. But, in radio frequency noise environment,
R.N.D pin must form a pattern line on PCB.
The VDD periodic voltage ripple over 50mV and the ripple frequency is lower than 10 kHz can cause
wrong sensitivity calibration. To prevent above problem, power (VDD, GND) line of touch circuit
should be separated from other circuit. Especially LED driver power line or digital switching circuit
power line certainly should be treated to be separated from touch circuit.
The CS patterns also should be routed as short as possible and the width of line might be about 0.25mm.
Parallel capacitor of CS pin could be useful in case detail sensitivity mediation is required such as for
complementation sensitivity difference between channels.
Serial connection resistor of CS pins may be used to avoid mal-function from external surge and ESD.
The capacitor that is between VDD and GND is an obligation. It should be located as close as possible
from ANRG08QL.
The CS pattern routing should be formed by bottom metal (opposite metal of touch PAD).
The empty space of PCB must be filled with GND pattern to strengthen GND pattern and to prevent
external noise from interfere with sensing frequency.
„VPP‟ pin for 12V voltage input is needed at MTP ROM writing only.
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
9.5 Example – Power Line Split Strategy PCB Layout
A. Not split power Line (Bad power line design)
The noise that is generated by AC load or relay can be loaded at 5V power line.
A big inductance might be appeared in case of the connection line between main board and
display board is too long, moreover the voltage ripple could be generated by LED (LCD)
display driver at VDD (5V).
B. Split power Line (One 5V regulator used) – Recommended
C. Split power Line (Separated 5V regulator used) – Strongly recommended
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
10 MECHANICAL DRAWING
10.1 Mechanical Drawing of ANRG08TA (16 TSSOP)
DIM
A
A1
A2
A3
b
b1
c
c1
D
E1
E
e
L
L1
θ
MIN
-
NOM
-
MAX
1.20
0.15
1.05
0.49
0.30
0.25
0.19
0.14
5.06
4.50
6.60
NOTES
1. ALL DIMENSIONS ARE IN MILLIMETERS.
ANGLES ARE IN DEGREES.
0.05
0.90
0.39
0.20
0.19
0.13
0.12
4.86
4.30
6.20
-
1.00
0.44
-
0.22
-
2. DIMENSION b APPLIES TO METALLIZED
TERMINAL AND IS MEASURED
BETWEEN 0.25mm AND 0.30mm FROM
TERMINAL TIP.
DIMENSION L1 REPRESENTS TERMINAL
FULL BACK FROM PACKAGE EDGE UP
TO 0.1mm IS ACCEPTABLE.
0.13
4.96
4.40
6.40
0.65BSC
-
3. COPLANARITY APPLIES TO THE
EXPOSED HEAT SLUG AS WELL AS THE
TERMINAL.
4. RADIUS ON TERMINAL IS OPTIONAL.
0.45
0
0.75
1.00BSC
-
8˚
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
10.2 Mechanical Drawing of ANRG08FB (24 MLF Punched type)
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
10.3 Mechanical Drawing of ANRG08SC (24 SOP)
DIM
A
MIN
-
NOM
-
MAX
2.64
NOTES
1. JEDEC OUTLINE : N/A.
2. DIMENSIONS “D” DOES NOT INCLUDE
MOLD FLASH, PROTRUSIONS OR GATE
BURRS.MOLD FLASH, PROTRUSIONS AND
GATE BURRS SHALL NOT EXCEED .25mm
(.010in) PER SIDE.
A1
D
0.10
15.24
7.42
10.29
0.53
0
-
-
-
15.70
7.59
10.64
1.04
8
E
7.52
10.46
0.79
4
3. DIMENSIONS “E” DOES NOT INCLUDE
INTER-LEAD FLASH, OR PROTRUSIONS.
INTER-LEAD FLASH AND PROTRUSIONS
SHALL NOT EXCEED .25mm (.010in) PER
SIDE.
H
L
θ˚
UNIT : MM
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
10.4 Mechanical Drawing of ANRG08QL (24 QFN Full lead type)
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
11 MARKING DESCRIPTION
11.1 Marking Description of ANRG08TA (16 TSSOP)
Device Code : ANRG 08
Channel Number
Touch Switch Group
Year / Week Code : YY WW
Manufacturing Week
Manufacturing Year
11.2 Marking Description of ANRG08FB (24 MLF), ANRG08QL (24 QFN)
Company Code : ADS
AD Semiconductor
Device Code : ANRG 8
Channel Number
Touch Switch Group
Customer / Assembly Lot Code : CC TTT
Assembly Lot Code
Customer Code
Year / Week Code : YY WW
Manufacturing Week
Manufacturing Year
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
11.3 Marking Description of ANRG08SC (24 SOP)
Company Code : ADS
AD Semiconductor
Device Code : ANRG 08
Channel Number
Touch Switch Group
Year / Week Code : YY WW
Manufacturing Week
Manufacturing Year
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ANRG08 (8-CH Auto Sensitivity Calibration Capacitive Touch Sensor)
NOTES:
LIFE SUPPORT POLICY
AD SEMICONDUCTOR’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN
LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE
PRESIDENT AND GENERAL COUNSEL OF AD SEMICONDUCTOR CORPORATION
The ADS logo is a registered trademark of ADSemiconductor
ⓒ 2006 ADSemiconductor – All Rights Reserved
www.adsemicon.com
www.adsemicon.co.kr
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