M38039G6HSP#U0 Renesas Electronics America, M38039G6HSP#U0 Datasheet - Page 82
M38039G6HSP#U0
Manufacturer Part Number
M38039G6HSP#U0
Description
IC 740/3803 MCU QZROM 64DIP
Manufacturer
Renesas Electronics America
Series
740/38000r
Datasheet
1.M38039G4HHPU0.pdf
(105 pages)
Specifications of M38039G6HSP#U0
Core Processor
740
Core Size
8-Bit
Speed
16.8MHz
Connectivity
SIO, UART/USART
Peripherals
LED, PWM, WDT
Number Of I /o
56
Program Memory Size
24KB (24K x 8)
Program Memory Type
QzROM
Ram Size
2K x 8
Voltage - Supply (vcc/vdd)
1.8 V ~ 5.5 V
Data Converters
A/D 16x10b; D/A 2x8b
Oscillator Type
Internal
Operating Temperature
-20°C ~ 85°C
Package / Case
64-SDIP (0.750", 19.05mm)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Eeprom Size
-
3803 Group (Spec.H QzROM version)
REJ03B0166-0113 Rev.1.13
Page 80 of 100
(2) Connection of bypass capacitor across V
In order to stabilize the system operation and avoid the latch-up,
connect an approximately 0.1 µF bypass capacitor across the V
line and the V
• Connect a bypass capacitor across the V
• Connect a bypass capacitor across the V
• Use lines with a larger diameter than other signal lines for V
• Connect the power source wiring via a bypass capacitor to the
Fig. 78 Bypass capacitor across the V
(3) Oscillator concerns
In order to obtain the stabilized operation clock on the user
system and its condition, contact the oscillator manufacturer and
select the oscillator and oscillation circuit constants. Be careful
especially when range of voltage and temperature is wide.
Also, take care to prevent an oscillator that generates clocks for a
microcomputer operation from being affected by other signals.
1. Keeping oscillator away from large current signal lines
• Reason
In the system using a microcomputer, there are signal lines for
controlling motors, LEDs, and thermal heads or others. When a
large current flows through those signal lines, strong noise
occurs because of mutual inductance.
2. Installing oscillator away from signal lines where potential
• Reason
Signal lines where potential levels change frequently (such as the
CNTR pin signal line) may affect other lines at signal rising edge
or falling edge. If such lines cross over a clock line, clock
waveforms may be deformed, which causes a microcomputer
failure or a program runaway.
at equal length.
with the shortest possible wiring.
line and V
V
Install a microcomputer (and especially an oscillator) as far as
possible from signal lines where a current larger than the
tolerance of current value flows.
levels change frequently
Install an oscillator and a connecting pattern of an oscillator
away from signal lines where potential levels change
frequently. Also, do not cross such signal lines over the clock
lines or the signal lines which are sensitive to noise.
SS
line
pin and the V
CC
N.G.
CC
line.
V
V
line as follows:
CC
SS
CC
pin.
Aug 21, 2009
SS
SS
SS
line and the V
pin and the V
pin and the V
O.K.
SS
V
V
CC
SS
line and V
CC
CC
CC
line
pin
pin
CC
SS
SS
Fig. 79 Wiring for a large current signal line/Wiring of
(4) Analog input
The analog input pin is connected to the capacitor of a voltage
comparator. Accordingly, sufficient accuracy may not be
obtained by the charge/discharge current at the time of A/D
conversion when the analog signal source of high-impedance is
connected to an analog input pin. In order to obtain the A/D
conversion result stabilized more, please lower the impedance of
an analog signal source, or add the smoothing capacitor to an
analog input pin.
(5) Difference of memory size
When memory size differ in one group, actual values such as an
electrical characteristics, A/D conversion accuracy, and the
amount of proof of noise incorrect operation may differ from the
ideal values.
When these products are used switching, perform system
evaluation for each product of every after confirming product
specification.
1. Keeping oscillator away from large current signal lines
2. Installing oscillator away from signal lines where potential
levels change frequently
signal lines where potential levels change
frequently
Mutual inductance
Do not cross.
current
Large
M
N.G.
GND
CNTR
X
X
V
X
X
V
Microcomputer
IN
OUT
SS
IN
OUT
SS
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