AP3861FN-G1 [DIODES]
Superior Multi-touch Capacitive Touch Screen Controller;型号: | AP3861FN-G1 |
厂家: | DIODES INCORPORATED |
描述: | Superior Multi-touch Capacitive Touch Screen Controller |
文件: | 总16页 (文件大小:649K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
General Description
Features (Continued)
The AP386X is a low-cost high-resolution single chip
solution for APA (All point addressable) capacitive
touch screen. It is an 8-bit single cycle 8051
microcontroller with ICP Interface. The chip includes
12-bit successive approximation analog-to-digital
•
Single Cycle 8051 CPU Core, Maximum Opera-
ting Clock up to 28MHz from IOSC (Zero Wait
State)
4 to 28MHz Internal Oscillator (IOSC)
32k-byte Flash ROM
converters
multiplexer-switcher
with
an
I2C
interface
for
and
flexible
6k-byte Internal SRAM
circuits
Two 16-bit Timers T0/T1
measurement of analog signal from APA panel. An
accurate switched-capacitor integrator is built-in and
it can auto calibrate the pixel parameters for a wide
range of capacitance on the touch screen (1pF to
32pF). This touch screen controller (TSC) with
CMOS integration circuit provides an ideal choice for
APA touch panel. The AP386X is specified over the
temperature range of -40°C to 85°C.
Configurable I2C Slave Controller and SPI Slave
Controller Shared with the Same Ports
With Asynchronous I2C Slave Address
Detection Logic Design
4 General Purpose GPIO Pins
One External Interrupt Pin
ISP/IAP via I²C Port
Operation Temperature Range: -40°C to 85°C
Package Type Alternatives: QFN-5×5-40 and
QFN-6×6-48
•
•
•
The AP386X is available in QFN-5×5-40 (for
AP3860) and QFN-6×6-48 (for AP3861) packages.
•
•
RoHS Compliance
Operating Mode:
Mode
Description
Power-down No scan with power-down mode
Features
Idle
While only 8051 CPU core is idle,
all peripherals remain active
Higher scan rate when fingers are
on panel, IOSC can up to 4MHz
to 28MHz
•
•
Mutual Capacitive Touch Sensing
Standard
Single Power Supply: 2.8V to 3.6V Operation
Voltage; LDO inside to Support 1.6V to 2.0V
Operation Voltage
•
•
•
•
Up to 17/23 Drive Lines and 10/12 Sense Lines
Charge Pump Support up to 6V, Doubling SNR
Internal Two-wire Serial Control Bus I2C
Single-end Integrator with Programmable Gain
Control
Applications
•
Multiplexed Analog Digitization with 12-bit
Resolution Scan SAR ADCs and Its Dedicated
2X to 8X Accumulator XSRAM Buffers
•
•
•
Mobile Phones
Personal Digital Assistants
Smart Hand-held or Gaming Devices
QFN-5×5-40
QFN-6×6-48
Figure 1. Package Types of AP386X
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Pin Configuration
FN Package
(QFN-5×5-40)
Pin 1 Mark
40 39 38 37 36 35 34 33 32
31
D15
1
2
3
4
5
6
30
29
VDD3V
S0
D14
D13
D12
28
27
26
25
24
23
22
21
INT/GPIO1
WAKE/GPIO0
D11
D10
D9
RSTN
MISO/GPIO2
7
8
MOSI/SDA
SCK/GPIO3
SS/SCL
D8
D7
D6
9
41
10
TESTEN
11 12 13
15
14
16 17 18 19 20
Figure 2. Pin Configuration of AP3860 (Top View)
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Pin Configuration (Continued)
FN Package
(QFN-6×6-48)
Figure 3. Pin Configuration of AP3861 (Top View)
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Pin Description
Pin Number
Pin
Name
Pin
Type
Pin Function
Driving Lines 16 to 0
QFN-5×5-40
QFN-6×6-48
AP3861
AP3860
D16 to
D0
40, 1 to 16
6 to 22
I/O, A
I/O, A
O
These pins can also be configured as I/O
bi-directional ports for test
Driving Lines 22 to 17
D22 to
D17
-
48, 1 to 5
23
These pins can also be configured as I/O
bi-directional ports for test
High Voltage. 6V
17
VDDHV
Charge pump high Voltage. This output pin can be
configured as VDD3V or 6V accordingly
Supply Voltage. 2.8V to 3.6V
18, 30
19
24, 35
25
VDD3V
VSS
P
P
A good decoupling capacitor between VDD3V and
VSS pins is critical for good performance
Ground Voltage. 0V
Internal Regulator Output. 1.6V to 2.0V
20
26
VDD18
O
Typical decoupling capacitors of 0.1F and 10F
should be connected between VDD18 and VSS
Test Mode Enable High Active
This pin has an internal weakly pull low resistor
connected. If it is connected high, the chip enters into
Test Mode condition
21
22
23
27
28
29
TESTEN
SS/SCL
I
SS/SCL
This pin can be configured as the SCL signal of the
I2C master or I2C slave controller. When I2C is
enabled, the pin is configured as an open-collector.
While in SPI mode, this pin is configured as the
slave chip select pin
I/O
I/O
Port 1.3 GPIO
SCK/
GPIO3
8051 P1.3 GPIO. This pin can also be configured as
the serial clock from SPI master while SPI interface
is activated
SDA
This pin can be configured as the SDA signal of the
I2C master or I2C slave controller. In this operation
mode, this pin should also be configured as
open-collector. While SPI interface is selected, the
pin serves as the data port from SPI master to SPI
slave
MOSI/
SDA
24
25
30
31
I/O
I/O
Port 1.2 GPIO
MISO/
GPIO2
8051 P1.2 GPIO. This pin can also be configured as
the output data pin from slave to master for SPI
interface
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Pin Description (Continued)
Pin Number
Pin
Pin
Type
Pin Function
QFN-5×5-40
QFN-6×6-48
Name
AP3860
AP3861
Reset Low Active
Typically connect a resistor to VDD3V and a
capacitor to VSS. Low asserted and threshold at
0.5*VDD. When forced low, the chip enters into reset
condition. This pin should not be connected to any
level above VDD
26
32
RSTN
I
Port 1.0 GPIO
WAKE/
GPIO0
27
28
33
34
I/O
I/O
8051 P1.0 GPIO. This pin can also be configured as
the wakeup pin from the host
Port 1.1 GPIO
INT/
GPIO1
8051 P1.1 GPIO. Open Drain output. This pin can
also be configured as the interrupt pin to notify the
host
Sensing Lines 0 to 9
29, 31 to 39
36 to 45
S0 to S9
I/O, A
I/O, A
These pins can also be configured as I/O
bi-directional ports for test
Sensing Lines 10 to 11
-
46, 47
49
S10, S11
EP
These pins can also be configured as I/O
bi-directional ports for test
41
Exposed Pad
“I/O” means input/output; “I” means input; “O” means Output; “P” means power; “A” means analog.
SCL and SDA Pin Description
Pull-up Enable
The pull-up enable for SCL and SDA is activated for AP386X, meaning that AP386X always has pull-up SCL
and SDA to VDD3V. During reset, SCL and SDA are as input pin. Moreover, if the pin connecting to the system
is floating, the internal pull-up will tie the pin to VDD3V (10k). After AP386X is reset, SCL and SDA are
input until its corresponding register is configured.
Mode Selection
SCL and SDA can be used in I2C and SPI mode. AP386X can enable I2C mode (SCL and SDA configured as
open drain pin) by register setting.
Wakeup
SCL and SDA can be used for wakeup input signals in different mode. While I2C mode is enabled, a START
protocol (SDA is low and SCL is high) on SCL and SDA is a wakeup signal to AP386X. While SPI mode is
enabled, an active low on the pin of SCL (serving as a slave select in SPI) is a wakeup signal to AP386X.
Moreover, a wakeup signal can be asserted by host from GPIO0.
INT/GPIO1
GPIO1 can be configured as open-drain or push-pull mode. Furthermore, GPIO1 pin has internal pull-up to
VDD3V (60k) or VDD18 (10k) based on different register definition.
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Functional Block Diagram
Figure 4. Functional Block Diagram of AP386X
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Ordering Information
AP386
-
G1: Green
Circuit Type
Blank: Tray
TR: Tape & Reel
0: AP3860
1: AP3861
Package
FN: QFN-5×5-40
/QFN-6×6-48
Package
QFN-5x5-40
QFN-6x6-48
Temperature Range
Part Number
Marking ID
Packing Type
AP3860FNTR-G1
AP3861FN-G1
3860FN
Tape & Reel
Tray
-40 to 85°C
3861FN
3861FN
AP3861FNTR-G1
Tape & Reel
BCD Semiconductor's Pb-free products, as designated with "G1" in the part number, are RoHS compliant and
green.
AP386X Support 3” to 8” Touch Panel, Listed Below:
PN
TX/RX
17/10
Multi-touch
10 points 100Hz
10 points 100Hz
Package
QFN-5x5-40
QFN-6x6-48
Panel size
3” to 7”
AP3860
AP3861
23/12
4” to 8”
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller
Absolute Maximum Ratings (Note 1)
AP386X
Parameter
Symbol
Value
0 to 4
Unit
V
Supply Voltage (Pin VDD3V)
Analog Input Voltage (Other pins)
Logic Input Voltage
VDD
-0.3 to VDD+0.3
-0.3 to VDD+0.3
V
V
Thermal Resistance (Simulation,
Junction to Ambient)
JA
TBD
°C/W
Maximum Junction Temperature
Operating Temperature
TJ
TOP
100
°C
°C
°C
V
-40 to 85
-65 to 150
8000
Storage Temperature
TSTG
ESD (Human Body Model)
ESD HBM
Note 1: Stresses greater than those listed under “Absolute Maximum Ratings” may cause permanent damage to
the device. These are stress ratings only, and functional operation of the device at these or any other conditions
beyond those indicated under “Recommended Operating Conditions” is not implied. Exposure to “Absolute
Maximum Ratings” for extended periods may affect device reliability.
Recommended Operating Conditions
Parameter
Symbol
Min
Max
Unit
Supply Voltage (Pin VDD3V)
Operating Ambient Temperature
VDD
TA
2.8
-40
3.6
85
V
ºC
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Electrical Characteristics
TA=25°C, VDD=2.8V to 3.6V, I2C bus frequency=400kHz, 12-bit mode, unless otherwise noted.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
mA
Standard mode fOSC=4 to
28MHz
5
Quiescent Current
Power-down mode
Idle mode
1
A
A
60
1.8
6
VDD18 Output Voltage
Charge Pump Voltage
VDD18
1.6
5.8
2.0
6.3
V
V
VDDHV Charge pump enable
fOSC
Internal
Operating
4
28
MHz
Frequency
DA/AC Characteristics for AFE
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
ADC DC Accuracy
Resolution
No Missing Codes
Integral Linearity Error
12
Bits
Bits
LSB
LSB
Standard modes
Standard modes
11
12
±3
±1.5
INL
Differential
Error
Linearity
DNL
Offset Error
Gain Error
±6
±4
LSB
LSB
Analog Input
Full-scale Input Span
ADC Sampling Dynamics
Throughput Rate
0
VDD
V
500
40
ksps
Switched-capacitor Integrator
Output Voltage Range
0.3
VDD-0.3
V
Integrator Capacitor
CINT
pF
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Electrical Characteristics (Continued)
DA/AC Characteristics for 8051 CPU Core, Digital GPIO Pins, Digital Peripherals
Parameter
Symbol
Conditions
Min
1.56
Typ
Max
1.71
1.30
VDD
0.5
Unit
VRSTN_H Low to high level
RSTN
Threshold
Input
Voltage
V
VRSTN_L High to low level
1.16
Input High Voltage
Input Low Voltage
Output High Voltage
Output Low Voltage
VIH
VIL
0.7*VDD
-0.3
V
V
VOH
VOL
VDD-0.6
V
0.4
V
High Level Output Current
Low Level Output Current
IOH
IOL
@VOH(Min)
@VOL(Max)
SCL, SDA, INT
Other Pins
1
1
mA
mA
10
Internal Pull-up Resistance
RPU
k
34
29
74
86
Internal
Pull-down
RPD
tRISE
tFALL
k
ns
Resistance
CLOAD=20pF and
10% to 90%
CLOAD=20pF and
10% to 90%
Output Rise Time
Output Fall Time
5
5
ns
GPIO Output Operating
Frequency
SCK Frequency
CLOAD =20pF
0
0
5
MHz
fSCK
2
MHz
kHz
SCL Clock Frequency
fSCLI2C
400
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Typical Application
AP3860
Figure 5. Typical Application Schematic of AP3860 (For QFN-5×5-40 Package)
AP3861
Figure 6. Typical Application Schematic of AP3861 (For QFN-6×6-48 Package)
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller
AP386X
Mechanical Dimensions
QFN-5×5-40
Unit: mm(inch)
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller
AP386X
Mechanical Dimensions (Continued)
QFN-6×6-48
Unit: mm(inch)
0.300(0.012)
J
5.900(0.232)
6.100(0.240)
0.500(0.020)
N25
N37
5.900(0.232)
6.100(0.240)
K
Pin 1 Mark
N13
N48
N1
PIN # 1 IDENTIFICATION
0.400(0.016)
BSC
See DETAIL A
DETAIL A
A
46
47
48
46
46
47
48
0.000(0.000)
0.050(0.002)
0.200(0.008)
REF
47
48
0.150(0.006)
0.250(0.010)
3
2
1
3
2
1
3
2
1
Pin 1 Options
J=K
min(mm) max(mm) min(inch) max(inch) min(mm) max(mm) min(inch) max(inch)
A
Symbol
Option1
Option2
4.400
4.150
4.600
4.450
0.173
0.163
0.181
0.175
0.700
0.800
0.900
0.028
0.031
0.031
0.035
0.800
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller
AP386X
Mounting Pad Layout
QFN-5×5-40
X=Y
Dimensions
X1=Y2
Y1=X2
X3=Y3
E
(mm)/(inch)
(mm)/(inch)
0.250/0.010
0.250/0.010
0.250/0.010
(mm)/(inch)
0.650/0.026
0.650/0.026
0.650/0.026
(mm)/(inch)
3.500/0.138
3.600/0.142
3.800/0.150
(mm)/(inch)
Option1
Option2
Option3
5.400/0.213
5.400/0.213
5.400/0.213
0.400/0.016
0.400/0.016
0.400/0.016
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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Preliminary Datasheet
Superior Multi-touch Capacitive Touch Screen Controller AP386X
Mounting Pad Layout (Continued)
QFN-6×6-48
X=Y
(mm)/(inch)
X1=Y2
(mm)/(inch)
Y1=X2
(mm)/(inch)
X3=Y3
(mm)/(inch)
E
Dimensions
Value
(mm)/(inch)
6.300/0.248
0.250/0.010
0.600/0.024
4.600/0.181
0.400/0.016
Aug. 2013 Rev. 1. 0
BCD Semiconductor Manufacturing Limited
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