UPD70F3735GC-GAD-AX Renesas Electronics America, UPD70F3735GC-GAD-AX Datasheet - Page 436
UPD70F3735GC-GAD-AX
Manufacturer Part Number
UPD70F3735GC-GAD-AX
Description
MCU 32BIT V850ES/JX3-L 80-LQFP
Manufacturer
Renesas Electronics America
Series
V850ES/Jx3-Lr
Datasheet
1.UPD70F3735GC-GAD-AX.pdf
(835 pages)
Specifications of UPD70F3735GC-GAD-AX
Core Processor
RISC
Core Size
32-Bit
Speed
20MHz
Connectivity
CSI, EBI/EMI, I²C, UART/USART
Peripherals
DMA, LVD, PWM, WDT
Number Of I /o
66
Program Memory Size
128KB (128K x 8)
Program Memory Type
FLASH
Ram Size
8K x 8
Voltage - Supply (vcc/vdd)
2.2 V ~ 3.6 V
Data Converters
A/D 8x10b, D/A 1x8b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 85°C
Package / Case
*
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Eeprom Size
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
UPD70F3735GC-GAD-AX
Manufacturer:
Renesas Electronics America
Quantity:
10 000
V850ES/JF3-L
R01UH0017EJ0400 Rev.4.00
Sep 30, 2010
(9) Standby mode
(10) High-speed conversion mode
(11) A/D conversion time
(12) Variation of A/D conversion results
(13) A/D conversion result hysteresis characteristics
Because the A/D converter stops operating in the STOP mode, conversion results are invalid, so power
consumption can be reduced. Operations are resumed after the STOP mode is released, but the A/D conversion
results after the STOP mode is released are invalid. When using the A/D converter after the STOP mode is
released, before setting the STOP mode or releasing the STOP mode, clear the ADA0M0.ADA0CE bit to 0 then set
the ADA0CE bit to 1 after releasing the STOP mode.
In the IDLE1, IDLE2, or subclock operation mode, operation continues. To lower the power consumption, therefore,
clear the ADA0M0.ADA0CE bit to 0. In the IDLE1 and IDLE2 modes, since the analog input voltage value cannot
be retained, the A/D conversion results after the IDLE1 and IDLE2 modes are released are invalid. The results of
conversions before the IDLE1 and IDLE2 modes were set are valid.
In the high-speed conversion mode, rewriting of the ADA0M0, ADA0M2, ADA0S, ADA0PFM, and ADA0PFT
registers and trigger input during the stabilization time are prohibited.
A/D conversion time is the total time of stabilization time, conversion time, wait time, and trigger response time
(for details of these times, refer to Table 13-2 Conversion Time Selection in Normal Conversion Mode
(ADA0HS1 Bit = 0) and Table 13-3 Conversion Time Selection in High-Speed Conversion Mode (ADA0HS1
Bit = 1)).
During A/D conversion in the normal conversion mode, if the ADA0M0, ADA0M2, ADA0S, ADA0PFM, and
ADA0PFT registers are written or a trigger is input, reconversion is carried out. However, if the stabilization time
end timing conflicts with the writing to these registers, or if the stabilization time end timing conflicts with the
trigger input, the stabilization time of 64 clocks is reinserted.
If a conflict occurs again with the reinserted stabilization time end timing, the stabilization time is reinserted.
Therefore do not set the trigger input interval and control register write interval to 64 clocks or below.
The results of the A/D conversion may vary depending on the fluctuation of the supply voltage, or may be affected
by noise. To reduce the variation, take counteractive measures with the program such as averaging the A/D
conversion results.
The successive comparison type A/D converter holds the analog input voltage in the internal sample & hold
capacitor and then performs A/D conversion. After the A/D conversion has finished, the analog input voltage
remains in the internal sample & hold capacitor. As a result, the following phenomena may occur.
• When the same channel is used for A/D conversions, if the voltage is higher or lower than the previous A/D
• When switching the analog input channel, hysteresis characteristics may appear where the conversion result is
conversion, then hysteresis characteristics may appear where the conversion result is affected by the previous
value. Thus, even if the conversion is performed at the same potential, the result may vary.
affected by the previous channel value. This is because one A/D converter is used for the A/D conversions.
Thus, even if the conversion is performed at the same potential, the result may vary.
CHAPTER 13 A/D CONVERTER
Page 420 of 816
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