SILAN SC9308

SC9308
AUDIO SYSTEM CONTROL MCU WITH ANALOG RADIO FUNCTION
DESCRIPTION
SC9308 is a SOC based on Silan’s 8-bit MCU SC65X for analog radio
DFR control with low voltage low power consumption. Built-in LCD
driver which can drive max. 4X14 segments display, 31 configurable
I/O ports and three 8-bit counters, two of which can be combined to
achieve 16 timing length; Built-in real time clock ensures the system
uninterrupted counting when it is in sleep state; 11 interrupt sources,
including four external interrupts, enabling the system to respond
QFP44-10 x10-0.8
quickly to internal or external events. Multi-mode optional serial
communication circuits greatly increase the system's scalability. Built-in
3.2MHz RC oscillator with external 75KHz oscillator can achieve the
perfect balance between power and speed. In high speed application, it
can extend external high frequency crystal through PC.4/5 pin,
APPLICATIONS
maximum up to 6MHz.
* Widely applied in portable audio
control system with LCD.
ORDERING INFORMATION
Part No.
Package
Marking
COB44
No
QFP-44-10×10-0.8
SC9308P
SC9308
SC9308P
FEATURES
* Memory
384-byte data memory
8K-byte program memory (OTP)
* I/O configuration
General-purpose I/O: 17 pins with pull up resistor;
SEG: also can be used as I/O.
* LCD controller/driver
* Clock source
External clock source: 75KHz Crystal
Built-in RC oscillator: 3.2MHz;
Extension Crystal: 2~6MHz(VDD>2.4V@4MHz)
* RTC
Year/month/day display
Provide BCD code data directly
Drive 7 words display max.
Leap year auto adjust
14 SEG x 4 COM
Timing alarm
Display mode: duty, bias can be programmable
* 8-bit timer/counter T0/T1/T2
* Local oscillator frequency counting circuit
Local oscillator:
Timing time can be set by program
FM frequency range: 30MHz~150MHz
External events counting
AM frequency range: 0.5MHz~30MHz
Arbitrary clock frequency output
Counter: 16-bit, gate time 1/4/8ms
T0/T1 can be 16-bit counter
* Operating voltage range: 3.0~3.6V
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* Built-in voltage reference
VREF=1.23V±5%
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SC9308
FEATURES (Continued)
* A/D converter
* Interrupt source
4-channels with 8-bit conversion precision
5 external interrupts, maskable
External reference voltage selectable
6 internal interrupts, maskable
Battery voltage monitor
* UART serial communication interface
2-line Asynchronous communication
Communication speed can be selected flexibly
Quick interrupt response
BLOCK DIAGRAM
Note: VPP pin can be diplexed as RESET, when program the OTP memory, this pin is connected to 12V
voltage.
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SC9308
ABSOLUTE MAXIMUM RATINGS
Characteristics
Symbol
Ratings
Unit
Supply Voltage
VDD
-0.3~5.5
V
Input Voltage (All The I/O Pins)
VI1
-0.3~VDD+0.3
V
Input Voltage (RESET)
VI1
-0.3~VDD+0.3
V
Output Voltage
VO
-0.3~VDD+0.3
V
Output High Level Current
IOH
-15
mA
Output Low Level Current
IOL
30
mA
Tamb
-20~+75
°C
TSTG
-40~+125
°C
Operating Ambient
Temperature
Storage Temperature
ELECTRICAL CHARACTERISTICS (Unless otherwise specified, Tamb=25 °C,VDD=3.3V)
Characteristics
Operating Voltage
Symbol
VDD
IQ1
Quiescent Current
Operating Current
Input High Voltage
Input Low Voltage
Output High Voltage
Output Low Voltage
Test conditions
IQ2
IDD
Min.
Typ.
Max.
Unit
3.0
3.3
3.6
V
1
μA
OSC 75KHz stop, CPU Clk stop
OSC=75KHz,CPU Clk=75KHz Sleep
μA
5.5
(Note 1)
OSC=75KHz,CPU Clk=3.2MHz,
1.7
all the modules start
3.0
VIH1
PA/B/C
2.4
-
VIH2
PE/F
2.0
-
VIL1
PA/B/C
-
1.0
VIL2
PE/F (Note2)
-
1.0
VOH1
VDD=3V,PA/B/C,IOH=-1mA
2.8
VOH2
VDD=3V,PE/F,IOH=-1mA
2.5
VOL1
VDD=3V,PA/B/C,IOH=1mA
0.2
VOL2
VDD=3V,PE/F,IOH=1mA
0.2
V
ILIH
VIN=VDD, all the input pins
1
Input Low Leakage Current
ILIL
VIN=0V,all the input pins
1
Rosc
VDD =3.0V,XIN=VDD, XOUT=0V
RL1
VDD=3.0V,VIN(FM/AM)=VDD
RL2
VDD=3.0V,Test = VDD
83
RH1
VDD=3.0V,VIN(=0,PA/B/C
25
RH2
VDD=3.0V,Vreset = 0
67
Feedback Resistor
Pull-Down Resistor
Pull-Up Resistor
V
V
Input High Leakage Current
75KHz Crystal Oscillator
mA
3000
6000
9000
9
10.5
12
V
μA
KΩ
KΩ
KΩ
Note
1. Only 75KHz crystal oscillator and RTC are working.
2. CMOS input, when input voltage is 1.6V, the state of read port is uncertain.
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SC9308
Seg2/PE.2
Seg1/PE.1
Seg0/PE.0
COM3
COM2
COM1
COM0
AVSS
AM
FM
TEST
PIN CONFIGURATION
33
32
31
30
29
28
27
26
25
24
23
Seg3/PE.3
34
22 PC.5/ADC5
Seg4/PE.4
35
21 PC.4/ADC4
Seg5/PE.5
36
20 VDD
Seg6/PE.6
37
19 XOUT
Seg7/PE.7
38
18 XIN
Seg8/PF.0
39
Seg9/PF.1
40
16 RESET/VPP
Seg10/PF.2
41
15 PC.1/ADC1
Seg11/PF.3
42
14 PC.0/ADC0
Seg12/PF.4
43
13 PB.5/TCLO1/RXD
Seg13/PF.5
44
12 PB.4/TCLO0/TXD
SC9308P
1
2
3
4
5
6
7
8
9
10
11
PA.0/INT0
PA.1/INT1
PA.2/INT2
PA.3/INT3
PA.4/TCL0
PA.5/TCL1
PA.6
PA.7/BUZ
PB.0/KS0
PB.1/KS1
PB.2/KS2
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SC9308
PIN DESCRIPTION
Pin No.
Pin Name
Diplex pin
I/O
1
PA.0
INT0
2
PA.1
INT1
3
PA.2
INT2
4
PA.3
INT3
5
PA.4
TCL0
6
PA.5
TCL1
7
PA.6
－
8
PA.7
BUZ
9
PB.0
KS0
10
PB.1
KS1
11
PB.2
KS2
12
PB.4
TCLO0
13
PB.5
TCLO1
14
PC.0
ADC0
I/O
15
PC.1
ADC1
AD input
16
RESET
VPP
－
17
GND
－
－
Digital ground
18
XOUT
－
O
Low frequency oscillator output
19
XIN
－
I
Low frequency oscillator input
20
VDD
－
－
21
PC.4
ADC4
Universal input / output;
I/O
PC.5
ADC5
8bit read/write;
Configurable bit operation.
Universal input / output;
Configurable bit operation.
System reset pin
Digital power supply
Universal input / output; Configurable bit
I/O
22
Pin Descriptions
AD input
operation.
PC4/5 can also be used as high speed crystal
interface;
23
TEST
－
－
24
FM
－
I
FM signal input
25
AM
－
I
AM signal output
26
AVSS
－
－
Analog ground
27~30
COM0~COM3
－
O
LCD display scan common signal
Test enable pin, internal pull-down resistor
Segments scan signal output, maximum output
31~38
SEG0~7
PE.0~7
I/O
4-bit data each pin.
Drive LCD screen together with COM signal.
Can be as general-purpose input/output port.
Segments scan signal output, maximum output
4-bit data each pin.
39~44
SEG8~SEG13
PF.0~5
I/O
Drive LCD screen together with COM signal.
Can be as common input/output port.
(Refer to LCD module description)
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SC9308
SHARED PIN DESCRIPTION
Pin no.
Shared pin
I/O
Descriptions
12
TXD
O
Serial communication data output
13
RXD
I
Serial communication data input
1-4
INT0-INT3
I
External interrupt input
5
TCL0
I
External counting pulse/clock input of timer 0
6
TCL1
I
External counting pulse/clock input of timer 1
8
BUZ
O
Buzzer signal output
9~11
KS0-KS2
I
Key scan input, can generate interrupt
12
TCLO0
O
Frequency division output of timer 0
13
TCLO1
O
Frequency division output of timer 1
16
VPP
－
High voltage pin, when download OTP, connects to 12V voltage
31~38
PE0~PE7
I/O
General purpose I/O port PORTE
39~44
PF0~PF5
I/O
General purpose I/O port PORTF
21
XIN4M
I
High frequency crystal input<ADC channel forbids>
22
XOUT4M
O
High frequency crystal output <ADC channel forbids>
FUNCTION DESCRIPTION
SC9308 has embedded SC65X core and 8K-byte OTP program memory, the data memory is 384-byte. Built-in
RC oscillator generates 3.2MHz clock frequency, and after 1/2,1/4 divided frequency, It can also be used as
system main clock together with external 75KHz crystal or extended high speed clock by PC4/5 to implement
applications in different modes, thus to maximize reduce the power consumption. The built-in counting circuit can
count the local oscillator signal frequency. In addition, it has three 8-bit counters T0/T1/T2. T0/T1 can be used
separately and also be used as 16-bit counter. The built-in RTC module can provides powerful calendar/alarm
functions, and provides 4 kinds of frequency BUZ signals. PA/B/C/E/F can provide max. 31 I/O ports, where
PA/B has pull-up configuration and selectable open-drain output function, PC can be shared as ADC analog pin
of ADC, PE/F can be used as LCD display data scan output. LCD driver can drive seven 8-segment display in
maximum, and bias voltage 1/3 and 1/2 are selectable, duty is 1/2, 1/3, 1/4 programmable control to meet the
various display requirements.
MCU Address Space
MCU uses 16-bit address bus, the maximum addressing space is 64-kByte (0000H~FFFFH). The address
assignment of memory space is as follows:
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SC9308
SFR: Special function registers. This block includes system control, state register and the mapping of
ports and display data block.
Register Mapping Table
0000H~007FH is assigned to I/O and some function registers. Where 0000H~000FH is assigned to the core.
Function registers and I/O ports configuration of used address space is as follows:
Module
Register
I/O
Address
W/R
00H
Function descriptions
Used Address Space
IRQIP
Interrupt Control
Maskable interrupt enable register
IRQDP
W/R
01H
Maskable interrupt source register
NMIIP
W/R
02H
Non-maskable interrupt enable register
NMIDP
W/R
03H
Non-maskable interrupt source register
INTCON
W/R
47H
Interrupt control register
NMI is not used in the circuit, reserved. Forbid it by SEN instruction of program.
WDTCON
Watchdog Timer
MCU control
W/R
04H
Watchdog timer setting and enable register
WDT CLR0
W
09H
Watchdog clear register (write 53H, ACH to
WDT CLR1
W
0AH
MCU_SLP
W
06H
MCU sleep control register
MCU_STATUS
R
07H
MCU state register
09H，0AH, can clear WDT)
Bit operation address space selection
Bit Operation Control BITCTRL
W/R
08H
register(refer to 《SC65X instructions》for
details)
System Control
SYSCON
W/R
45H
System function control register
Clock Control
CLKCON
W/R
46H
System clock control register
CLKSEL
W/R
4BH
Block signal selection control register
Block Signal
Selection Control
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SC9308
Module
Register
I/O
Address
RTC_CS
W/R
30H
RTC control register
YEARH
W/R
31H
MSB of year data(BCD: 00~99)
SECOND
W/R
32H
Second data(BCD: 00~59)
MIN
W/R
33H
Minute data(BCD: 00~59)
HOUR
W/R
34H
Hour data(BCD: 00~23)
DAY
W/R
35H
Day data(BCD: 01~31)
RTC Data and
WEEK
W/R
36H
Week data(BCD: 0~6)
Control
MON
W/R
37H
Month data(BCD: 01~12)
YEARL
W/R
38H
LSB of year data(BCD: 00~99)
MIN_ALARM
W/R
39H
Minute alarm setting
HOUR_ALARM
W/R
3AH
Hour alarm setting
DAY_ALARM
W/R
3BH
Day alarm setting
WEEK_ALARM
W/R
3CH
Week alarm time setting
W
3DH
BUZ signal control
T2CON
W/R
48H
Control register
T2REF
W/R
49H
Preassign register/capture register
T0CON
W/R
4CH
Control register
T0REF
W/R
4DH
Preassign register
T1CON
W/R
4EH
Control register
CKO_CS
TIMER2
TIMER0
TIMER1
UART
Function descriptions
T1REF
W/R
4FH
Preassign register
UART_BUF_ADDR
W/R
62H
Transmitting/receiving data buffer
SCON_ADDR
W/R
63H
UART control register
BRCON_ADDR
W/R
64H
Baud rate control register
BRTIMER_ADDR
W/R
65H
Baud rate counting initial value setting
register
Analog/Digital
ADDATA
R
50H
Conversion result of 8-bit storage
Converter
ADCON
W/R
51H
Analog/digital control and state
PLLCON
W/R
52H
Local oscillator input control register
IFMOD
W/R
55H
Frequency counting mode control register
IFCNT0
W/R
56H
Low 8-bit of frequency counting data
IFCNT1
W/R
57H
High 8-bit of frequency counting data
TRISA
W/R
59H
Direction control register of port A
PORTA
W/R
5DH
Data temporary storage register of port A
TRISB
W/R
5AH
Direction control register of port B
PORTB
W/R
5EH
Data temporary storage register of port B
TRISC
W/R
5BH
Direction control register of port C
PORTC
W/R
5FH
Data temporary storage register of port C
APCON
W/R
5CH
Port and A/D input diplex selection control
Local oscillator
amply
Frequency counter
Port and Direction
Control
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SC9308
Module
Register
I/O
Address
Function descriptions
Pull-up
PUA
W/R
60H
I/O port pull-up mode selection register
Configuration
PUB
W/R
61H
I/O port pull-up mode selection register
PORTE
W/R
68H
Data temporary storage register of port E
PORTF
W/R
69H
Data temporary storage register of port F
SEG Diplex Port
Refer to LCD module description for details.
SEG Diplex Control
SEG_CTRL0
W
6BH
SEG0~3 pin configuration register
SEG_CTRL1
W
6CH
SEG4~7 pin configuration register
SEG_CTRL2
W
6DH
SEG8~11 pin configuration register
SEG_CTRL3
W
6EH
SEG12~13 pin configuration register
LCDCON
W
67H
LCD control register
LCDPWR
W/R
66H
LCD control register
LCDREG0
W/R
72H
LCD display register 0
LCDREG1
W/R
73H
LCD display register 1
LCDREG2
W/R
74H
LCD display register 2
LCDREG3
W/R
75H
LCD display register 3
LCDREG4
W/R
76H
LCD display register 4
LCDREG5
W/R
77H
LCD display register 5
LCDREG6
W/R
78H
LCD display register 6
LCDREG7
W/R
79H
LCD display register 7
68－69H Unused
Display RAM
LCD Interface
Control
Interrupt control
SC65X supports two kinds of interrupts: Non-maskable interrupt NMI; maskable interrupt IRQ. Where PRI of nonmaskable interrupt NMI is higher than maskable interrupt IRQ. However, this circuit does not implement NMI
interrupt.
1. Maskable interrupts
SC9308 has 11 maskable interrupts in total without PRI; Setting IRQIP register to determine if the interrupt is
enable. All the maskable interrupts use the same entry address FFF8H.
2. Non-maskable interrupts(reserved)
Non-maskable interrupt NMI, active high. Entry address is FFFCH/FFFDH. This circuit does not implement
NMI function. There is no need to set NMIIP and NMIDP registers.
3. External interrupts
SC9308 has 4 IO input interrupts ExtInt0～3, input by PA0～3 pins; one is used for scan interrupt KSINT,
shares one interrupt source with ExtInt2, corresponding to IRQDP.6. ExtInt3 and IF interrupt IRQIFC share one
interrupt source, corresponding to IRQDP.7. In addition, RTC and Timer2 share one interrupt source.
Watchdog Timer
Watchdog timer adopts independent counter. Watchdog (WDT) is mainly used for program monitor, after counting
overflows, generates reset signal to avoid endless loop or other error execution state. When 75K crystal oscillator
is operating, the longest overflow time is 873.6ms.
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SC9308
Operating mode control
SC9308 work in three modes: normal mode, sleep mode, and data maintained mode. Normal mode can be
divided into high-speed mode and low-speed mode. Their difference is the system clock from different sources.
The high speed mode system clock comes from internal RC oscillator or high speed oscillator extended by PC4/5,
while the low speed mode system clock comes from external low speed oscillator.
After power on, CPU clock is provided by internal RC oscillator. When this oscillator is working, the internal
reference module is needed to open. Select clock frequency or switch to the external low speed clock (75KHz) by
setting system control register and clock control register.
The MCU enters sleep mode by setting SLEEP flag of MCU sleep control register MCU_SLP as 1. After the MCU
enters sleep mode, external 75KHz oscillator still works, and CPU clock will be turned off. But it can still response
to internal timer interrupt or external IO interrupt. The circuit enters sleep mode which can reduce the system
standby power dissipation (75KHz crystal oscillator operating, when RTC enables at 3V operating voltage, typical
power dissipation current <5μA). Reset, internal or external interrupt can wake up CPU and make it enter work in
full speed.
When system clock comes from external low speed oscillator, if this oscillator is closed by program, the circuit will
enter data save mode. In this mode, RAM data is saved. The dissipation current is reduced to less than 1uA.
External IO interrupt or reset can make the oscillator work again.
Note: The clock should be switch to 75KHz before entering the sleep mode. Turn off the power reference circuit
and other relative circuits to reduce the power dissipation.
Clock and Reset
SC9308 supports many selectable operating clocks. The clock source can be external 75KHz crystal oscillator,
and can also be the clock generated by internal RC oscillator. When need high precision and high speed
application, it can extend high frequency external oscillator through PC4/5. The structure is as follows:
The system reset occurs when: internal watchdog counting overflows; external Reset pin input low level. The
circuit jumps to the start address of the program from reset address FFFAH and begins working normally.
SC9308 has built in RC oscillator, and frequency of RC oscillator is about 3.2MHz when supply voltage is 3V. If
you need to fast response to internal and external events without high precision, adopt RC oscillator as CPU
clock to make the system process the events quickly. Due to RC oscillator will vary following the voltage and
temperature, PC4/PC5 must be used to extend high-speed oscillator to satisfy the system requirements under
the conditions that need high-precision timing or asynchronous communication, etc..
RC oscillator begins to work after reset, and CPU clock selects the RC oscillator.
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SC9308
Real time Clock (RTC)
RTC module can provide powerful timing function. When it starts, it will work separately from CPU. It can provide
minute, hour and year/month/day, etc. in BCD formats. Minute, hour, week, day alarm can be set, and the alarm
function can be triggered by interrupt or inquiring the alarm flag by software. At the same time, it will generate
0.5s real time clock signal, which can trigger interrupt. This interrupt shares one channel with alarm interrupt. It is
used together with INTCON register. At the same time, it provides 4 BUZ signals to driver the buzzer.
Timer T0/T1/T2
SC9308 includes three 8-bit timers Timer0, Timer1 and Timer2. Where, T0 and T1 timers can be together used
as 16-bit timer. When T0 or T1 are used separately, their functions are as follows:
¾
8-bit programmable timing, generate interrupt after setting the time interval
¾
Arbitrary frequency output
¾
External clock frequency division
T0/T1/T2 has one control register and one pre-assignment register.
T2 timer has input capture except for the similar functions as T0/T1. capture signal input are all diplex with PA6
pin.
UART
SC9308 has built-in full duplex async communication interface. Communication port with three modes: 8bit
variable baud rate, 9bit fixed baud rate or variable baud rate communication.
¾
Tx pin diplex with PB4, RX pin diplex with PB5
¾
Baud rate presetting register can adjust baud rate freely
¾
Transmitting and receiving interrupt cooperation dual buffer can make sure the high speed
communication stable and reduce the CPU load.
8-bit ADC
8-bit AD converter is mainly used for keyboard scan or electronic volume display. It has 4 input channels
(PC0/1/4/5). Select a channel and input switch level by program and the result is stored in an 8-bit register.
Conversion clock has 4 selectable clock sources. Input internal reference voltage through channel 6 of ADC to
detect the battery voltage(together with internal standard voltage). PC4/5 can also be used to extend high
frequency oscillator pin, if it is not connected to oscillator, do not effect ADC input channel. Adopt 75KHz clock,
one AD conversion needs 12 clock cycles, and the typical conversion time of ADC is 160μs.
Frequency counting module
This module mainly includes local oscillator signal amplifier and gate control counting two sections. FM or AM
local oscillator signal is counted by a 16-bit counter after amplified. This counter gate control time can select
1/4/8ms, so the local oscillator frequency can be got easily according to the counter value and gate time, then
display on LCD according to application requirements.
I/O Port
SC9308 has 5 groups of I/O ports: PA, PB, PC, PE, PF. PA has 8 pins, where 4 pins are used for external
interrupt input. PB has 5 pins, where 3 pins are used for key input interrupt. PC has 4 pins which are shared with
ADC input channel. PE/PF are shared with SEG segments, and can also be used as common IO, 14 pins in total.
So there are max. 31 pins can be used as IO pins.
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SC9308
Ports PA/B configured three registers. Data register PORTx latches the output data, direction register TRISx
controls the dataflow direction (set 1 to be output). PUA register and TRISA register can implement input pull-up
or output open-drain of port A. PB has only 5 pins, port PC of PUB register is controlled by 3 registers, TRISC
realizes direction selection, PORTC stores output data, APCON realizes the switch of analog channel and digital
channel.
Register PORTx is readable/writable. When PORTx is set as output, read the last writing data of this register;
when it is set as input, read the pin state.
Display Driver
LCD module can drive maximum 14 SEG x 4 COM LCD board. It is mainly composed of the following parts:
¾
Control circuit
¾
8 display data memory registers are all readable/writable
¾
14 SEG outputs
¾
4 COM outputs
Each SEG can be used as common I/O port.
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SC9308
CHIP TOPOLOGY
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SC9308
KEY PAD COORDINATE1 (Die size: 2390* 2490 unit: μm)
NO.
Symbol
X axis
Y axis
NO.
Symbol
X axis
Y axis
1
PA0
-1198
261.76
24
FM
1198
-914.25
2
PA1
-1198
161.76
25
AM
1198
-814.25
2
AVSS
1198
-690.65
3
PA2
-1198
-15.2
26
4
PA3
-1198
-115.2
26
AVSS
1198
-453.45
5
PA4
-1198
-292.16
27
COM0
1198
169.88
6
PA5
-1198
-392.16
28
COM1
1198
269.88
7
PA6
-1198
-596.12
29
COM2
1198
369.88
8
PA7
-1198
-669.12
30
COM3
1198
469.88
9
PB0
-1198
-846.08
31
SEG0
1198
576.32
10
PB1
-1198
-946.08
32
SEG1
1198
676.8
11
PB2
-1198
-1123.04
33
SEG2
1198
777.28
12
PB4
-814.03
-1148
34
SEG3
1198
877.76
13
PB5
-637.07
-1148
35
SEG4
1071.97
1148
14
PC0
-537.07
-1148
36
SEG5
916.58
1148
15
PC1
-360.11
-1148
37
SEG6
761.19
11489
16
RESET
82.82
-1148
38
SEG7
605.8
1148
17
GND
237.82
-1148
39
SEG8
450.41
1148
18
XOUT
337.82
-1148
40
SEG9
295.02
1148
19
XIN
525.04
-1148
41
SEG10
139.63
1148
20
VDD
625.04
-1148
42
SEG11
-15.76
1148
21
PC4
735.04
-1148
43
SEG12
-171.15
1148
22
PC5
912
-1148
44
SEG13
-326.54
1148
23
TEST
1174.36
-1148
Note 1: The coordinate origin is in the middle of the die.
Note 2: The two pads marked with 26 in above table should be bounding to one pin.
HANGZHOU MICROELECTRONICS CO.,LTD
Http://www.silan.com.cn
REV:1.1
2008.10.20
Page 14 of 17
SC9308
TYPICAL APPLICATION DIAGRAM
HANGZHOU MICROELECTRONICS CO.,LTD
Http://www.silan.com.cn
REV:1.1
2008.10.20
Page 15 of 17
SC9308
PACKAGE OUTLINE
QFP-44-10x10-0.8
Unit: mm
MOS DEVICES OPERATE NOTES:
Electrostatic charges may exist in many things. Please take following preventive measures to prevent effectively
the MOS electric circuit as a result of the damage which is caused by discharge:
z
The operator must put on wrist strap which should be earthed to against electrostatic.
z
Equipment cases should be earthed.
z
All tools used during assembly, including soldering tools and solder baths, must be earthed.
z
MOS devices should be packed in antistatic/conductive containers for transportation.
Note：Silan reserves the right to make changes without notice in this specification for the improvement of the design and performance.
Silan will supply the best possible product for customers.
HANGZHOU MICROELECTRONICS CO.,LTD
Http://www.silan.com.cn
REV:1.1
2008.10.20
Page 16 of 17