ML610Q412P-NNNTB03A7 Rohm Semiconductor, ML610Q412P-NNNTB03A7 Datasheet - Page 377

ML610Q412P-NNNTB03A7

Manufacturer Part Number

ML610Q412P-NNNTB03A7

Description

MCU 8BIT 16K FLASH 120-TQFP

Manufacturer

Rohm Semiconductor

Datasheets

1.ML610Q482P-NNNTB03A7.pdf (20 pages)

2.ML610Q411P-NNNTB03A7.pdf (36 pages)

3.ML610Q411P-NNNTB03A7.pdf (381 pages)

Specifications of ML610Q412P-NNNTB03A7

Core Processor

nX-U8/100

Core Size

8-Bit

Speed

625kHz

Connectivity

I²C, SSP, UART/USART

Peripherals

LCD, POR, PWM, WDT

Number Of I /o

Program Memory Size

16KB (8K x 16)

Program Memory Type

FLASH

Ram Size

1K x 8

Voltage - Supply (vcc/vdd)

1.1 V ~ 3.6 V

Data Converters

A/D 2x12b, 2x24b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

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Manufacturer

Quantity

Price

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Part Number:

ML610Q412P-NNNTB03A7

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Quantity:

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Company:

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Chapter 5 Interrupt

• Unused interrupt vector table

[ ] Please define all unused interrupt vector tables for fail safe.

• Non-maskable interrupt

[ ] The watchdog timer interrupt (WDTINT) and the NMI interrupt (NMINT) are non-maskable interrupts that do not

depend on MIE flag(Refer to Section 5.2.9. and 5.3).

Chapter 6 Clock generation circuit

• Initial System clock

[ ] At power up or system reset, both built-in 500kHz RC oscillation and 32.768kHz crystal oscillation are oscillating, and

1/8 of the 500kHz RC oscillation clock(62.5kHz) is selected as a system clock for CPU. ML610Q415 does not have the

32.768kHz crystal oscillation function.

• Switching high-speed clock operation mode to low-speed clock operation mode

[

oscillating for sure by checking Q128H bit is “1”.

• Switching high-speed clock operation mode to another high-speed clock operation mode

[ ] When switching the high-speed clock mode, the clock must be first switched back to low clock before switching to

other high-speed clock (Refer to Section 6.2.2.).

• Port 2

[ ] Specify the 2

Chapter 7 TBC (Time Base Counter)

• HTBCLK

[ ] HTBLK goes through the HTBDR register. Set proper valute to the register(Refer to Section 7.2.3. in the user’s

manual).

• How to read LTBC

[ ] Read consecutively LTBC(Low-speed Time Base Counter) twice until the last data coincides the previous data to

prevent reading of uncertain data while counting up the clock (Refer to Section 7.3.1 in the user’s manual).

Chapter 10 Timer

• How to read the timer counter registers

[ ] Check notes for reading the timer counter registers while counting up(Refer to Section 10.2.6. ~ 10.2.9. in the user’s

manual).

Chapter 11 PWM

• Used Pin

[ ] P34(PWM0) pin or P43(PWM0) pin is used.

• How to read the PWM counter registers

[ ] Check notes for reading the PWM counter registers while the PWM is operating(Refer to Section 11.2.4. in the user’s

manual).

• Port 2

[ ] Specify the 2

Chapter 12 WDT

• Overflow period

Clear WDT during the selected overflow period:

[ ] 125ms,

• WDP

[ ] Check the WDP before writing to the WDTCON and determine writing “5AH” or “0A5H” (Refer to Section 12.2.2. in

the user’s manual).

] When switching the high-speed clock to the low-speed clock after the power up, confirm the low-speed clock is

Function

[ ] 500ms,

function for the port 2 when driving a clock to the pin(Refer to Section 6.4 in the user’s manual).

Function for the port(Refer to Section 11.4 in the user’s manual).

[ ] 2s,

[ ] 8s

E – 2

ML610Q411/ML610Q412/ML610Q415 User’s Manual

Appendix E Check List

ML610Q412P-NNNTB03A7 Rohm Semiconductor, ML610Q412P-NNNTB03A7 Datasheet - Page 377

ML610Q412P-NNNTB03A7

Specifications of ML610Q412P-NNNTB03A7

Available stocks

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