GENERAL DESCRIPTION
The LPC61W492 is an evolving product from SMSCs most popular I/O family. It features a whole new interface, namely LPC (Low Pin Count) interface, which will be supported in the next generation Intel chip-set. This interface as its name suggests is to provide an economical implementation of I/Os interface with lower pin count and still maintains equivalent performance as its ISA interface counterpart. Approximately 40 pin counts are saved in LPC I/O comparing to ISA implementation.
FEATURES
▪ 5 Volt Operation
▪ LPC Bus Interface
▪ Supports nLDRQ (LPC DMA), SERIRQ (Serial IRQ)
▪ PC 98/99 and ACPI 1.0 Compliant
▪ Supports DPM (Device Power Management), ACPI
▪ Programmable Configuration Settings
▪ Single 24 or 48 MHz Clock Input
▪ Floppy Disk Controller (FDC)
- Compatible with IBM PC/AT Disk Drive Systems
- Variable Write Pre-Compensation with Track Selectable Capability
- Supports Vertical Recording Format
- DMA Enable Logic
- 16-Byte Data FIFOs
- Supports Floppy Disk Drives and Tape Drives
- Detects all Overrun and Underrun Conditions
- Built-in Address Mark Detection Circuit to Simplify the Read Electronics
- FDD Anti-Virus Functions with Software Write Protect and FDD Write Enable Signal (Write Data Signal was Forced to be Inactive)
- Supports up to Four 3.5-inch or 5.25- Inch Floppy Disk Drives
- Completely Compatible with Industry Standard 82077
- 360K/720K/1.2M/1.44M/2.88M format; 250K, 300K, 500K, 1M, 2Mbps Data Transfer Rate
- Supports 3-mode FDD, and its Win95/98 Driver
▪ UART
- Two High-Speed 16550 Compatible UARTs with 16-byte Send/Receive FIFOs
- MIDI Compatible
- Fully Programmable Serial-Interface Characteristics:
- 5, 6, 7 or 8-bit Characters
- Even, Odd or No Parity Bit Generation/Detection
- 1, 1.5 or 2 Stop Bits Generation
- Internal Diagnostic Capabilities:
- Loop-back Controls for Communications Link Fault Isolation
- Break, Parity, Overrun, Framing Error Simulation
- Programmable Baud Generator Allows Division of 1.8461 MHz and 24 MHz by 1 to (216-1)
- Maximum Baud Rate up to 921 Kbps for 14.769 MHz and 1.5 Mbps for 24 MHz
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