SONIX SN8P27142_2715, Руководство пользователя

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SN8P2714X_2715
8-bit micro-controller build-in 12-bit ADC
SONiX TECHNOLOGY CO., LTD
Page 109
V1.4
15
ELECTRICAL CHARACTERISTIC
15.1 ABSOLUTE MAXIMUM RATING
(All of the voltages referenced to Vss)
Supply voltage (Vdd)………………………………………………………………………………………………… - 0.3V ~ 6.0V
Input in voltage (Vin)……………………………………………………………………………………..Vss - 0.2V ~ Vdd + 0.2V
Operating ambient temperature (Topr)
SN8P27142P, SN8P27142S, SN8P27143P, SN8P27143S, SN8P27143X, SN8P2714K, SN8P2714S,
SN8P2715P, SN8P2715S………………….……………………………………………………………… 0
°
C ~ + 70
°
C
SN8P27142PD, SN8P27142SD, SN8P27143PD, SN8P27143SD, SN8P27143XD, SN8P2714KD,
SN8P2714SD, SN8P2715PD, SN8P2715SD.….…………………………………..………….….. –40
°
C ~ + 85
°
C
Storage ambient temperature (Tstor) ………………………………………..……………………….……… –40
°
C ~ + 125
°
C
15.2 STANDARD ELECTRICAL CHARACTERISTIC
(All of voltages referenced to Vss, Vdd = 5.0V, fosc = 4 MHz,Fcpu=1MHZ, ambient temperature is 25
°
C unless otherwise
note.)
PARAMETER SYM. DESCRIPTION MIN. TYP. MAX. UNIT
Normal mode, Vpp = Vdd, 25
°
C 2.4 5.0 5.5
Normal mode, Vpp = Vdd, -40
°
C~85
°
C
2.5 5.0 5.5
Operating voltage Vdd
Programming mode, Vpp = 12.5V 5.0
V
RAM Data Retention voltage Vdr 1.5 - - V
Internal POR Vpor Vdd rise rate to ensure internal power-on reset 0.05 - - V/ms
ViL1 All input ports Vss - 0.3Vdd V
Input Low Voltage
ViL2 Reset pin Vss - 0.2Vdd V
ViH1 All input ports 0.7Vdd - Vdd V
Input High Voltage
ViH2 Reset pin 0.9Vdd - Vdd V
Vin = Vdd, 25
°
C - - 2 uA
Reset pin leakage current Ilekg
Vin = Vdd, -40
°
C~85
°
C - - 5 uA
Vin = Vss , Vdd = 3V 100 200 300 K
Ω
I/O port pull-up resistor Rup
Vin = Vss , Vdd = 5V 50 100 180 K
Ω
I/O port input leakage current Ilekg Pull-up resistor disable, Vin = Vdd - - 2 uA
IoH Vop = Vdd - 0.5V(source) 8 12 - mA
Port2, Port4, Port 5 output current
IoL Vop = Vss + 0.5V(sink) 8 15 - mA
INTn trigger pulse width Tint0 INT0 ~ INT1 interrupt request pulse width 2/fcpu - - Cycle
AVREFH input voltage Varfh Vdd = 5.0V 2V - Vdd V
AIN0 ~ AIN7 input voltage Vani Vdd = 5.0V 0 - Varfh V
F
ADCLK
VDD=5.0V - 8M Hz
ADC Clock Frequency
VDD=3.0V - 5M Hz
ADC Conversion Cycle Time F
ADCYL
VDD=2.4V~5.5V 64 1/F
ADCLK
F
ADSMP
VDD=5.0V 125 K/sec ADC Sampling Rate
(Set FADS=1 Frequency)
VDD=3.0V 80 K/sec
Differential Nonlinearity DNL VDD=5.0V , AVREFH=3.2V, F
ADSMP
=7.8K ±1 ±2 ±16 LSB
Integral Nonlinearity INL VDD=5.0V , AVREFH=3.2V, F
ADSMP
=7.8K ±2 ±4 ±16 LSB
No Missing Code NMC VDD=5.0V , AVREFH=3.2V, F
ADSMP
=7.8K 8 10 12 Bits
ADC enable time Tast Ready to start convert after set ADENB = “1” 100 - - uS
Vdd=5.0V - 0.6* - mA
ADC current consumption I
ADC
Vdd=3.0V - 0.4* - mA
Vdd=5V, 25
°
C
8 14 21 mA
Vdd=3V, 25
°
C
5 11 18 mA
Vdd=5V, -40
°
C~85
°
C
8 18 27 mA
DAC Full-scale Output Current I
FSO
Vdd=3V, -40
°
C~85
°
C
5 15 24 mA
Vdd=5V - - 150 Ω
DAC Loading Resistance R
L
Vdd=3V - - 100 Ω
DAC DNL DAC
DNL
DAC Differential NonLinearity - ±1* - LSB
DAC INL DAC
INL
DAC Integral NonLinearity - ±3* - LSB
Vdd= 5V 4MHz - 2.5 5 mA Supply Current
(Disable ADC)
Idd1
normal Mode
Fcpu = Fosc/4
Vdd= 3V 4MHz - 1.5 3 mA