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Features: The ZLR64400 MCU supports 20 interrupt sources with 6 interrupt vectors, as follows:· 2 from T8, T16 time-out and capture· 3 from UART Tx, UART Rx, UART BRG· 1 from LVD· 14 from SMR source P20-P27, P30-P33, P00, P07· Any change of logic from P20-P27, P30-P33 can generate an interru...

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SeekIC No. : 004551148 Detail

ZLR64400: Features: The ZLR64400 MCU supports 20 interrupt sources with 6 interrupt vectors, as follows:· 2 from T8, T16 time-out and capture· 3 from UART Tx, UART Rx, UART BRG· 1 from LVD· 14 from SMR s...

ZLR64400 Data Sheet

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Part Number:: ZLR64400
Supply Ability:: 5000

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Product Details

Description

Features:

   The ZLR64400 MCU supports 20 interrupt sources with 6 interrupt vectors, as follows:
· 2 from T8, T16 time-out and capture
· 3 from UART Tx, UART Rx, UART BRG
· 1 from LVD
· 14 from SMR source P20-P27, P30-P33, P00, P07
· Any change of logic from P20-P27, P30-P33 can generate an interrupt or SMR
   Additional features include:
· IR learning amplifier
· Low power consumption—11 mW (typical)
· Three standby modes:
· STOP—1.7 A (typical)
· HALT—0.6 mA (typical)
· Low voltage reset
· Intelligent counter/timer architecture to automate generation or reception and demodulation
   of complex waveform and pulsed signals:
· One programmable 8-bit counter/timer with two capture registers and two load registers
· One programmable 16-bit counter/timer with one 16-bit capture register pair and
   one 16-bit load register pair
· Programmable input glitch filter for pulse reception
· The UART baud rate generator can be used as another 8-bit timer when the UART
   is not in use.
· Six priority interrupts
· Three external/UART interrupts
· Two assigned to counter/timers
· One low-voltage detection interrupt
· 8-bit UART
· RX, TX interrupts
· 4800, 9600, 19200 and 38400 baud rates
· Parity Odd/Even/None
· Stop bits 1/2
· Low voltage detection and high voltage detection flags
· Programmable Watch-Dog Timer/Power-On Reset circuits
· Two on-board analog comparators with independent reference voltages and programmable
   interrupt polarity
· User selectable options through option bit mask coding (On/Off)
· Port 0 pins 0· 3 pull-up transistors
· Port 0 pins 4· 7 pull-up transistors
· Port 2 pins 0· 7 pull-up transistors
· Port 3 pins 0· 3 pull-up transistors
· Watch-dog timer enabled at Power-on rese

Pinout

Connection Diagram

Specifications

Parameter	Min.	Max.	Units
Ambient temperature under bias	0	+75	C
Storage temperature	-65	+150	C
Voltage on any pin with respect to V_SS*	-0.3	+4.0	V
Voltage on VDD pin with respect to V_SS	-0.3	+3.6	V
Maximum current on input and/or inactive output p	-5	+5	A
Maximum output current from active output pin	-25	+25	mA
Maximum current into VDD or out of V_SS		75	mA
*Note: This voltage applies to all pins except V_DD, P32, and P33.

Description

The ZLR64400 ROM MCU is a member of the Crimzon™ family of infrared microcontrollers. It provides a directly-compatible code upgrade path to other Crimzon™ MCUs, offers a robust learning function, and features up to 64KB read only memory (ROM) and 1004 bytes of general-purpose random-access memory (RAM). Two timers allow the generation of complex signals while performing other counting operations. A UART allows the ZLR64400 MCU to be a slave/master database chip. When the UART is not in use, the Baud Rate Generator can be used as a third timer. Enhanced Stop-mode recovery (SMR) features allow the ZLR64400 MCU to awaken from STOP mode on any change of logic, and on any combination of the 12 SMR inputs. The SMR source can also be used as an interrupt source.

Many high-end remote control units offer a learning function. Simply stated, a learning function allows a replacement remote unit to learn most infrared signals from the original remote unit and regenerate the signal. However, the amplifying circuits of many learning remotes are expensive, are not tuned well, and result in frustrated users. ZiLOG's ZLR64400 MCU is the first chip dedicated to solving this problem because it offers a built-in tuned amplification circuit in a wide range of positions and battery voltages. The only external component required is a photodiode.

The ZLR64400 MCU greatly reduces system cost, yet improves learning function reliability. Best of all, however, will be the user experience promised by ZiLOG's superior learning function. With all new features, the ZLR64400 MCU is excellent for infrared remote control and other MCU applications.

ZLR64400

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