Datasheet BA45F5420 (Holtek) - 10

Hersteller	Holtek
Beschreibung	9V High Voltage Smoke Detector Flash MCU
Seiten / Seite	112 / 10 — BA45F5420. 9V High Voltage Smoke Detector Flash MCU. Absolute Maximum …
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Dokumentensprache	Englisch

BA45F5420. 9V High Voltage Smoke Detector Flash MCU. Absolute Maximum Ratings. D.C. Electrical Characteristics

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BA45F5420

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BA45F5420 BA45F5420 9V High Voltage Smoke Detector Flash MCU 9V High Voltage Smoke Detector Flash MCU Absolute Maximum Ratings
Supply Voltage, VCC ... -0.3V to 16V Supply Voltage, VDD ...VSS-0.3V to VSS+6.0V Input Voltage ...VSS-0.3V to VDD+0.3V Storage Temperature ... -50°C to 125°C Operating Temperature ... -40°C to 85°C IOL Total ... 80mA IOH Total .. -80mA Total Power Dissipation ... 500mW Note: These are stress ratings only. Stresses exceeding the range specified under “Absolute Maximum Ratings” may cause substantial damage to the device. Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability.
D.C. Electrical Characteristics
For data in the following tables, note that factors such as oscillator type, operating voltage, operating frequency, pin load conditions, temperature and program instruction type, etc., can all exert an influence on the measured values.
Operating Voltage Characteristics
Ta=25°C
Symbol Parameter Test Conditions Min. Typ. Max. Unit
Operating Voltage – HIRC f V SYS=8MHz — 3.3 — DD V Operating Voltage – LIRC fSYS=32kHz — 3.3 —
Standby Current Characteristics
Ta=25°C, unless otherwise specified.
Test Conditions Symbol Standby Mode Min. Typ. Max. Max. @85°C Unit VDD Conditions
SLEEP Mode 3.3V WDT on — 1.5 3.0 3.6 μA ISTB IDLE0 Mode – LIRC 3.3V fSUB on — 3 5 6 μA IDLE1 Mode – HIRC 3.3V fSUB on, fSYS=8MHz — 360 500 600 μA Note: When using the characteristic table data, the following notes should be taken into consideration: 1. Any digital inputs are setup in a non-floating condition. 2. All measurements are taken under conditions of no load and with all peripherals in an off state. 3. There are no DC current paths. 4. All Standby Current values are taken after a HALT instruction execution thus stopping all instruction execution. Rev. 1.00 10 June 15, 2020 Rev. 1.00 11 June 15, 2020 Document Outline Features CPU Features Peripheral Features General Description Block Diagram Pin Assignment Pin Description Absolute Maximum Ratings D.C. Electrical Characteristics Operating Voltage Characteristics Standby Current Characteristics Operating Current Characteristics A.C. Electrical Characteristics High Speed Internal Oscillator – HIRC – Frequency Accuracy Low Speed Internal Oscillator Characteristics – LIRC System Start Up Time Characteristics Input/Output Characteristics Memory Characteristics Internal Reference Voltage Electrical Characteristics LVR Electrical Characteristics Sink Current Generator Electrical Characteristics Operational Amplifier Electrical Characteristics A/D Converter Electrical Characteristics LDO Electrical Characteristics Piezoelectric Horn Driver Characteristics Power-on Reset Characteristics System Architecture Clocking and Pipelining Program Counter Stack Arithmetic and Logic Unit – ALU Flash Program Memory Structure Special Vectors Look-up Table Table Program Example In Circuit Programming – ICP On-Chip Debug Support – OCDS RAM Data Memory Structure General Purpose Data Memory Special Purpose Data Memory Special Function Register Description Indirect Addressing Register – IAR0, IAR1 Memory Pointers – MP0, MP1 Accumulator – ACC Program Counter Low Register – PCL Look-up Table Registers – TBLP, TBLH Status Register – STATUS Emulated EEPROM Data Memory Emulated EEPROM Data Memory Structure Emulated EEPROM Registers Erasing the Emulated EEPROM Writing Data to the Emulated EEPROM Reading Data from the Emulated EEPROM Programming Considerations Oscillators Oscillator Overview System Clock Configurations Internal RC Oscillator – HIRC Internal 32kHz Oscillator – LIRC Operating Modes and System Clocks System Clocks System Operation Modes Control Registers Operating Mode Switching Standby Current Considerations Wake-up Watchdog Timer Watchdog Timer Clock Source Watchdog Timer Control Register Watchdog Timer Operation Reset and Initialisation Reset Functions Reset Initial Conditions Input/Output Ports Pull-high Resistors Port A Wake-up I/O Port Control Registers Sink Current Generator Pin-shared Functions I/O Pin Structures Programming Considerations Timer Modules – TM Introduction TM Operation TM Clock Source TM Interrupts TM External Pins Programming Considerations Periodic Type TM – PTM Periodic Type TM Operation Periodic Type TM Register Description Periodic Type TM Operating Modes Smoke Detector AFE Smoke Detector AFE Registers Operational Amplifier Operation Piezoel Horn Driver Analog to Digital Converter A/D Overview Registers Descriptions A/D Converter Reference Voltage A/D Converter Input Signals A/D Converter Operation Conversion Rate and Timing Diagram Summary of A/D Conversion Steps Programming Considerations A/D Transfer Function A/D Programming Examples Interrupts Interrupt Registers Interrupt Operation External Interrupt Timer Module Interrupts A/D Converter Interrupt Time Base Interrupts Interrupt Wake-up Function Programming Considerations Application Circuits External-driving Buzzer Application Circuit Self-driving Buzzer Application Circuit Instruction Set Introduction Instruction Timing Moving and Transferring Data Arithmetic Operations Logical and Rotate Operation Branches and Control Transfer Bit Operations Table Read Operations Other Operations Instruction Set Summary Table Conventions Instruction Definition Package Information 16-pin NSOP (150mil) Outline Dimensions 20-pin SOP (300mil) Outline Dimensions

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