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4XR01T3V130 Datasheet, PDF (8/16 Pages) Holtek Semiconductor Inc – 8-Bit OTP MCU with RF Transmitter
HT46R01T3/HT48R01T3
8-Bit OTP MCU with RF Transmitter
A.C. Characteristics
Ta=25°C
Symbol
Parameter
fHIRC
System Clock
(HIRC)
Test Conditions
VDD
Conditions
3V Ta= -40°C~85°C
Min. Typ. Max. Unit
-10% 4/8 +10% MHz
fTIMER
Timer Input Frequency
(TCn)
2.2V~3.6V
¾
3.3V~3.6V
0
¾ 4000 kHz
0
¾ 8000 kHz
tWDTOSC Watchdog Oscillator Period
3V
¾
45
90 180 ms
tRES
External Reset Low Pulse Width ¾
¾
1
¾
¾
ms
tSST
System Start-up Time Period
¾ Wake-Up from HALT
¾ 1024 ¾
tSYS
tINT
Interrupt Pulse Width
¾
¾
1
¾
¾
ms
tLVR
Low Voltage Width to Reset
¾
¾
0.25 1.00 2.00 ms
Note: 1. tSYS=1/fSYS
2. *For fERC, as the resistor tolerance will influence the frequency a precision resistor is recommended.
A/D Converter Electrical Characteristics
Ta=25°C
Symbol
Parameter
VADC
VADI
VREF
A/D Operating Voltage
A/D Converter Input Voltage
A/D Converter Input reference
Voltage Range
Test Conditions
VDD
Conditions
¾ VREF=VADC
¾
¾
¾ VADC=3V
Min. Typ. Max. Unit
2.7
¾
3.6
V
0
¾
VADC/
VREF
V
TBD
(TBC)
¾
VADC
+0.1
V
DNL
A/D Converter Differential
Non-Linearity
2.7V VREF=VADC=VDD,
3V tAD=0.5ms
-2
¾
2
LSB
INL
A/D Converter Integral
Non-Linearity
2.7V VREF=VADC=VDD,
tAD=0.5ms (calculated
-4
¾
4
LSB
3V on best-fit line)
IADC
Additional Power Consumption
if A/D Converter is Used
3V No load, tAD=0.5ms
¾
0.5
¾
mA
tAD
A/D Converter Clock Period
2.7V~
3.6V
¾
0.5
¾
10
ms
tADC
A/D Converter Sampling Time
(see note)
2.7V~
3.6V
12-bit ADC
¾
16
¾
tAD
tON2ST
A/D Converter on to ADC Start
2.7V~
3.6V
¾
2
¾
¾
ms
Note: ADC conversion time (tAD)= n (bits ADC) + 4 (sampling time), the conversion for each bit needs one ADC
clock(tAD).
Rev. 1.30
8
November 23, 2010