ML610Q412P-NNNTB03A7 Rohm Semiconductor, ML610Q412P-NNNTB03A7 Datasheet

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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
14
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
-

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Bonase Electronics (HK) Co., Limited Bonase Electronics (HK) Co., Limited
Part Number:
ML610Q412P-NNNTB03A7
Manufacturer:
ROHM
Quantity:
750
Company:
BOSTOCK HK LIMITED BOSTOCK HK LIMITED
Part Number:
ML610Q412P-NNNTB03A7
Manufacturer:
Rohm Semiconductor
Quantity:
10 000
GENERAL DESCRIPTION
The CPU nX-U8/100 is capable of efficient instruction execution in 1-intruction 1-clock mode by 3-stage pipe line architecture
parallel procesing. The Flash ROM that is installed as program memory achieves low-voltage low-power consumption operation
(read operation) equivalent to mask ROM and is most suitable for battery-driven applications. The on-chip debug function that
is installed enables program debugging and programming.
M L610Q411/Q412 has a dual clock, runs at 32.768kHz crystal oscillation clock or a built-in 500kHz RC oscillation clock, used
for a system requires the accurate clock or timer. ML610Q415 works with the built-in RC oscillation clock and does not need an
external crystal oscillator, can lower a system cost and shrink the production board.
FEATURES
• CPU
• Internal memory
• Interrupt controller
• Time base counter
ML610Q411/Q412/Q415 is a high-performance 8-bit CMOS microcontroller into which rich peripheral circuits, such as
synchronous serial port, UART, I
converter, 12-bit successive approximation type A/D converter, and LCD driver, are incorporated around OKI-original 8-bit
CPU nX-U8/100.
ML610Q411/Q412/Q415
8-bit Microcontroller with a Built-in LCD driver
− 8-bit RISC CPU (CPU name: nX-U8/100)
− Instruction system: 16-bit instructions
− Instruction set:
− On-Chip debug function
− Minimum instruction execution time
− Internal 16KBbyte Flash ROM (8K×16 bits) (including unusable 1KByte TEST area)
− Internal 1KByte Data RAM (1024×8 bits)
− 2 non-maskable interrupt sources
− 19 maskable interrupt sources
− Low-speed time base counter ×1 channel
− High-speed time base counter ×1 channel
converter, PWM, TBC128Hz, TBC32Hz, TBC16Hz, TBC2Hz)
30.5 μs (@32.768 kHz system clock)
2μs (@500kHz system clock)
Frequency compensation (Compensation range: Approx. −488ppm to +488ppm. Compensation accuracy: Approx.
0.48ppm)
Internal source: 1 (Watch dog timer)
External source: 1 (NMI)
Internal sources: 15 (SSIO, SA-A/D converter, I2C, Timer0, Timer1, Timer2, Timer3, 1kHz timer, UART, RC-A/D
External sources: 4 (P00, P01, P02, P03)
Transfer,
manipulations, bit logic operations, jump, conditional jump, call return stack manipulations, arithmetic
shift, and so on
2
C bus interface (master), buzzer driver, battery level detect circuit, RC oscillation type A/D
arithmetic
operations,
comparison,
logic
operations,
multiplication/division,
Issue Date: Jul.17 2010
FEDL610Q411-01
1/36
bit

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ML610Q412P-NNNTB03A7 Summary of contents

Page 1

ML610Q411/Q412/Q415 8-bit Microcontroller with a Built-in LCD driver GENERAL DESCRIPTION ML610Q411/Q412/Q415 is a high-performance 8-bit CMOS microcontroller into which rich peripheral circuits, such as 2 synchronous serial port, UART bus interface (master), buzzer driver, battery level detect circuit, ...

Page 2

OKI Semiconductor • Watchdog timer − Non-maskable interrupt and reset − Free running − Overflow period: 4 types selectable ML610Q411/Q412: 125ms, 500ms, 2s, and 8s ML610Q415: approx. 131ms, 524ms, 2.1s, 8.4s • Timers − 8 bits × 4 channels (Timer0-3: ...

Page 3

OKI Semiconductor • LCD driver − The number of segments ML610Q411: 144 dots max. (36 seg × 4 com) ML610Q412: 176 dots max. (44 seg × 4 com) ML610Q415: 144 dots max. (36 seg × 4 com) − 1/1 to ...

Page 4

... TQFP ML610Q411-xxxTBZ03A (Blank product: ML610Q411-NNNTBZ03A) ML610Q411P-xxxTBZ03A (Blank product: ML610Q411P-NNNTBZ03A) ML610Q412-xxxTBZ03A (Blank product: ML610Q412-NNNTBZ03A) ML610Q412P-xxxTBZ03A (Blank product: ML610Q412P-NNNTBZ03A) ML610Q415-xxxTBZ03A (Blank product: ML610Q415-NNNTBZ03A) xxx: ROM code number P: Wide range temperature version A: Low-speed clock oscillation stop detection reset different spec version (See the user’s manual for more detail.) ...

Page 5

OKI Semiconductor BLOCK DIAGRAM ML610Q411/ML610Q415 Block Diagram Figure 1 show the block diagram of the ML610Q411. "*" indicates the secondary function of each port. "*" indicates ML610Q415 does not have the crystal oscillation. EPSW1~3 PSW Timing Controller On-Chip ICE V ...

Page 6

OKI Semiconductor ML610Q412 Block Diagram Figure 2 show the block diagram of the ML610Q412. "*" indicates the secondary function of each port. EPSW1~3 PSW Timing Controller Instruction On-Chip Decoder ICE RESET_N RESET & TEST TEST XT0 ...

Page 7

OKI Semiconductor PIN CONFIGURATION ML610Q411/ML610Q415 TQFP120 Pin Layout 90pin 91pin 91 SEG21 92 SEG22 93 SEG23 SEG24 94 SEG25 95 SEG26 96 SEG27 97 SEG28 98 99 SEG29 100 SEG30 101 SEG31 SEG32 102 SEG33 103 SEG34 104 SEG35 105 ...

Page 8

OKI Semiconductor ML610Q412 TQFP120 Pin Layout 90pin 91pin 91 SEG21 92 SEG22 93 SEG23 SEG24 94 SEG25 95 SEG26 96 SEG27 97 SEG28 98 99 SEG29 100 SEG30 101 SEG31 SEG32 102 SEG33 103 SEG34 104 SEG35 105 SEG43 106 ...

Page 9

OKI Semiconductor ML610Q411/ML610Q415 Chip Pin Layout & Dimension SEG21 91 SEG22 92 SEG23 93 SEG24 94 SEG25 95 SEG26 96 SEG27 97 SEG28 98 SEG29 99 SEG30 100 SEG31 101 SEG32 102 SEG33 103 SEG34 104 SEG35 105 PA0 106 ...

Page 10

OKI Semiconductor ML610Q412 Chip Pin Layout & Dimension SEG21 91 SEG22 92 SEG23 93 SEG24 94 SEG25 95 SEG26 96 SEG27 97 SEG28 98 SEG29 99 SEG30 100 SEG31 101 SEG32 102 SEG33 103 SEG34 104 SEG35 105 SEG43 106 ...

Page 11

OKI Semiconductor ML610Q411/ML610Q415 Pad Coordinates PAD Pad X Y No. Name (μm) (μm) VPP 1 -1230 -1212 VSS 2 -1150 -1212 P20 3 -1070 -1212 P21 4 -990 -1212 P22 5 -910 -1212 P40 6 -830 -1212 P41 7 -750 ...

Page 12

OKI Semiconductor ML610Q412 Pad Coordinates PAD Pad X Y No. Name (μm) (μm) VPP 1 -1230 -1212 VSS 2 -1150 -1212 P20 3 -1070 -1212 P21 4 -990 -1212 P22 5 -910 -1212 P40 6 -830 -1212 P41 7 -750 ...

Page 13

OKI Semiconductor PIN LIST PAD Primary function No. 415 Pin name I/O Function 2, ⎯ Negative power supply pin V SS 24,45,47 ⎯ Positive power supply pin 22 Power supply pin for ⎯ internal logic (internally 23 ...

Page 14

OKI Semiconductor PAD Primary function No. 415 Pin name I/O Function Successive approximation 36 AIN0 I type ADC input Successive approximation 37 AIN1 I type ADC input Non-maskable interrupt pin 40 NMI I P00/EXI0/ Input port, External 41 I interrupt ...

Page 15

OKI Semiconductor PAD Primary function No. 415 Pin name I/O Function 2 SEG40 LCD segment pin 1 Input/output port PA4(* ) I/O 110 2 LCD segment pin SEG39 Input/output port PA5(* ) I/O 111 2 ...

Page 16

OKI Semiconductor PIN DESCRIPTION Pin name I/O System Reset input pin. When this pin is set to a “L” level, system reset mode is RESET_N I set and the internal section is initialized. When this pin is set to a ...

Page 17

OKI Semiconductor Pin name I/O UART UART data output pin. This pin is used as the secondary function of the TXD0 O P43 pin. UART data input pin. This pin is used as the secondary function of the RXD0 I ...

Page 18

OKI Semiconductor Pin name I/O RC oscillation type A/D converter Channel 0 oscillation input pin. This pin is used as the secondary function IN0 I of the P30 pin. Channel 0 reference capacitor connection pin. This pin is used as ...

Page 19

OKI Semiconductor TERMINATION OF UNUSED PINS Table 3 shows methods of terminating the unused pins. Pin DDX V REF XT0 XT1 AIN0, AIN1 C1, C2 ...

Page 20

... Ta = 25°C DDL 25°C DDX 25° 25° 25° 25° 25°C OUT I Port3– 25°C OUT1 I Port2 25°C OUT2 25°C ⎯ T STG Symbol Condition ML610Q411, ML610Q412, ML610Q415 T OP ML610Q411P, ML610Q411PA, ML610Q412P ⎯ ⎯ ML610Q411 ML610Q412 ML610Q415 ML610Q411/ML610Q412 XTL ⎯ ⎯ ⎯ ⎯ ML610Q411/ML610Q412 X ⎯ ...

Page 21

OKI Semiconductor OPERATING CONDITIONS OF FLASH ROM Parameter Operating temperature Operating voltage Write cycles Data retention *1 : Those voltages must be supplied pin has an internal pulldown resister CHARACTERISTICS (1/ 1.1 to ...

Page 22

OKI Semiconductor DC CHARACTERISTICS (2/ 1.1 to 3.6V 2.2 to 3.6V Parameter Symbol V V voltage temperature L1 Δ deviation * V voltage L1 Δ ...

Page 23

OKI Semiconductor DC CHARACTERISTICS (3/ 1.1 to 3.6V 2.2 to 3.6V Parameter Symbol BLD threshold V V BLD DD voltage BLD threshold voltage ΔV BLD temperature deviation CPU: In STOP state. Supply current ...

Page 24

OKI Semiconductor CPU 500kHz operating state. Supply current 5 IDD5 LCD and BIAS circuits: Operating. * CPU 500kHz operating state.* Supply current 6 IDD6 LCD and BIAS circuits: Operating. * A/D: In operating state ...

Page 25

OKI Semiconductor IIH1 Input current 1 (RESET_N) IIL1 IIH1 Input current 1 (TEST) IIL1 Input current 2 IIH2 (when pulled-down) (NMI) (P00-P03) IIL2 (P10-P11) (when pulled-up) (P30-P35) IIH2Z VIH2 = V (P40-P47) *1 (PA0-PA7) IIL2Z VIL2 = V *1: ML610Q411 ...

Page 26

OKI Semiconductor HYSTERESIS WIDTH Input signal Internal signal ML610Q411/ML610Q412/ML610Q415 Δ DDL V SS FEDL610Q411-01 26/36 ...

Page 27

OKI Semiconductor MEASURING CIRCUITS MEASURING CIRCUIT 1 XT0 32.768kHz crystal XT1 P10/OSC0 XT0 XT1 P10/OSC0 MEASURING CIRCUIT 2 VIH (*1) VIL ...

Page 28

OKI Semiconductor MEASURING CIRCUIT 3 VIH RS1 VIL V MEASURING CIRCUIT 4 (* MEASURING CIRCUIT 5 VIH (*1) VIL DDL DDX *1: Input logic circuit to determine the ...

Page 29

OKI Semiconductor AC CHARACTERISTICS (External Interrupt 1.1 to 3.6V 2.2 to 3.6V Parameter External interrupt disable period P00–P03 (Rising-edge interrupt) P00–P03 (Falling-edge interrupt) NMI, P00–P03 (Both-edge interrupt) AC CHARACTERISTICS (Serial Port ...

Page 30

OKI Semiconductor AC CHARACTERISTICS (Synchronous Serial Port 1.3 to 3.6V 2.2 to 3.6V Parameter SCLK input cycle (slave mode) SCLK output cycle (master mode) SCLK input pulse width (slave mode) SCLK output pulse ...

Page 31

OKI Semiconductor 2 AC CHARACTERISTICS (I C Bus Interface: Standard Mode 1.8 to 3.6V Parameter SCL clock frequency SCL hold time (start/restart condition) SCL ”L” level time SCL ”H” level time SCL setup time (restart ...

Page 32

OKI Semiconductor AC CHARACTERISTICS (RC Oscillation A/D Converter 1.3 to 3.6V Parameter Resistors for oscillation Oscillation frequency VDD = 1. oscillation frequency *1 ratio VDD = 1.5V Oscillation frequency VDD = 3.0V ...

Page 33

OKI Semiconductor Electrical Characteristics of Successive Approximation Type A/D Converter (V = 1.8 to 3.6V 2.2 to 3.6V Parameter Resolution Integral non-linearity error Differential non-linearity error Zero-scale error Full-scale error Reference voltage Conversion time φ: ...

Page 34

OKI Semiconductor PACKAGE DIMENSIONS Notes for Mounting the Surface Mount Type Package The surface mount type packages are very susceptible to heat in reflow mounting and humidity absorbed in storage. Therefore, before you perform reflow mounting, contact our responsible sales ...

Page 35

OKI Semiconductor REVISION HISTORY Document No. Date FEDL610Q411-01 Jul.17,2010 Page Previous Current Edition Edition – – Formally edition 1 FEDL610Q411-01 ML610Q411/ML610Q412/ML610Q415 Description 35/36 ...

Page 36

OKI Semiconductor NOTICE 1. The information contained herein can change without notice owing to product and/or technical improvements. Before using the product, please make sure that the information being referred to is up-to-date. 2. The outline of action and examples ...

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