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Table Of Contents

Features
Description
Pin Configuration
Pin Description: RF Part
Pin Description: Microcontroller Part
UHF ASK/FSK Transmitter Block
Features
Description
General Description
Functional Description
- ASK Transmission
- FSK Transmission
- CLK Output
  - Clock Pulse Take Over
  - Output Matching and Power Setting
- Application Circuit
Absolute Maximum Ratings
Thermal Resistance
Electrical Characteristics
Microcontroller Block
Features
Description
Introduction
- Differences between T48C862-R8 and ATAR862 Microconrtollers
Microcontroller Architecture General Description
Components of Microcontroller Core
- Program Memory
- RAM
  - Expression Stack
  - Return Stack
- Registers
- ALU
- I/O Bus
- Instruction Set
- Interrupt Structure
  - Interrupt Processing
  - Interrupt Latency
- Software Interrupts
- Hardware Interrupts
Master Reset
- Power-on Reset and Brown-out Detection
  - Watchdog Reset
  - External Clock Supervisor
Voltage Monitor
- Voltage Monitor Control/Status Register
Clock Generation
- Clock Module
- Oscillator Circuits and External Clock Input Stage
- Clock Management
  - Clock Management Register (CM)
  - System Configuration Register (SC)
Power-down Modes
Peripheral Modules
- Addressing Peripherals
Bi-directional Ports
- Bi-directional Port 1
- Bi-directional Port 2
  - Port 2 Data Register (P2DAT)
  - Port 2 Control Register (P2CR)
- Bi-directional Port 5
  - Port 5 Data Register (P5DAT)
  - Port 5 Control Register (P5CR) Byte Write
- Bi-directional Port 4
  - Port 4 Data Register (P4DAT)
  - Port 4 Control Register (P4CR) Byte Write
- Bi-directional Port 6
  - Port 6 Data Register (P6DAT)
  - Port 6 Control Register (P6CR)
- Universal Timer/Counter/ Communication Module (UTCM)
- Timer 1
- Timer 2
- Timer 2 Modes
- Timer 2 Output Modes
- Timer 2 Output Signals
- Timer 2 Registers
Timer 3
- Features
- Timer/Counter Modes
- Timer 3 Modulator/Demodulator Modes
- Timer 3 Modulator for Carrier Frequency Burst Modulation
- Timer 3 Demodulator for Biphase, Manchester and Pulse-width-modulated Signals
- Timer 3 Registers
- Timer 3 Capture Register
  - Timer 3 CaPture Register (T3CP) Byte Read
- Synchronous Serial Interface (SSI)
- Serial Interface Registers
Combination Modes
- Combination Mode Timer 2 and SSI
- Combination Mode Timer 3 and SSI
- Combination Mode Timer 2 and Timer 3
  - Combination Mode 10: Frequency Measurement or Event Counter with Time Gate
  - Combination Mode 11: Burst Modulation 1
- Combination Mode Timer 2, Timer 3 and SSI
  - Combination Mode 12: Burst Modulation 2
  - Combination Mode 13: FSK Modulation
- Data EEPROM
- Serial Interface
  - Serial Protocol
  - Control Byte Format
- EEPROM
- Initialization the Serial Interface to the EEPROM
Absolute Maximum Ratings
Thermal Resistance
DC Operating Characteristics
AC Characteristics
Crystal Characteristics
Ordering Information
Package Information
Table of Contents

T48C862-R8

4590B–4BMCU–02/03

Timer 3 – Mode 8:

FSK Modulation with Shift

The two compare registers are used for generating two different time intervals. The SSI

internal data output (SO) selects which compare register is used for the output fre-

quency generation. A "0" level at the SSI data output enables the compare register 1. A

"1" level enables compare register 2. The compare- and compare-mode registers must

be programmed to generate the two frequencies via the output toggle flip-flop. The SSI

can be supplied with the toggle signal of Timer 2. The Timer 3 counter is driven by an

internal or external clock source. The Timer 2 counter is driven by the Counter 3 (TOG3)

(see also combination mode 13).

Figure 56. FSK Modulation

Timer 3 – Mode 9:

Pulse-width Modulation with

the Shift Register

The two compare registers are used for generating two different time intervals. The SSI

internal data output (SO) selects which compare register is used for the output pulse

generation. In this mode both compare- and compare-mode registers must be pro-

grammed for generating the two pulse widths. It is also useful to enable the single-action

mode for extreme duty cycles. Timer 2 is used as baudrate generator and for the trigger

restart of Timer 3. The SSI must be supplied with a toggle signal of Timer 2. The counter

is driven by an internal or external clock source (see combination mode 7).

Figure 57. Pulse-width Modulation

Timer 3 – Mode 10:

Manchester

Demodulation/Pulse-width

Demodulation

For Manchester demodulation, the edge detection stage must be programmed to detect

each edge at the input. These edges are evaluated by the demodulator stage. The timer

stage is used to generate the shift clock for the SSI. The compare register 1 match

event defines the correct moment for shifting the state from the input T3I as the decoded

bit into shift register - after that the demodulator waits for the next edge to synchronize

the timer by a reset for the next bit. The compare register 2 can also be used to detect a

time-out error and handle it with an interrupt routine (see also combination mode 8).

01234012340123

Counter 3

CM31

CM32

40120120120120120120120123

T3R

T3O

01 0

000000000 0000

Counter 3

CM31

CM32

T3O

00000123456789101112131415012345

TOG2

678

9111210 1413 0 2 314150

00 1

SIR

SCO

T3R