The Texas Instruments PCI7621 controller is an integrated dual-socket UltraMedia PC Card controller, Smart Card controller, IEEE 1394 open HCI host controller and PHY, and flash media controller. This high-performance integrated solution provides the latest in PC Card, Smart Card, IEEE 1394, Secure Digital (SD), MultiMediaCard (MMC), Memory Stick/PRO, SmartMedia, and XD technology.
The Texas Instruments PCI7421 controller is an integrated dual-socket UltraMedia PC Card controller, IEEE 1394 Open HCI host controller and PHY, and flash media controller. This high-performance integrated solution provides the latest in PC Card, IEEE 1394, SD, MMC, Memory Stick/PRO, SmartMedia, and XD technology.
The Texas Instruments PCI7611 controller is an integrated single-socket UltraMedia PC Card controller, Smart Card controller, IEEE 1394 open HCI host controller and PHY, and flash media controller. This high-performance integrated solution provides the latest in PC Card, Smart Card, IEEE 1394, SD, MMC, Memory Stick/PRO, SmartMedia, and XD technology.
The Texas Instruments PCI7411 controller is an integrated single-socket UltraMedia PC Card controller, IEEE 1394 open HCI host controller and PHY, and flash media controller. This high-performance integrated solution provides the latest in PC Card, IEEE 1394, SD, MMC, Memory Stick/PRO, SmartMedia, and XD technology.
For the remainder of this document, the PCI7x21 controller refers to the PCI7621 and PCI7421 controllers, and the PCI7x11 controller refers to the PCI7611 and PCI7411 controllers.
Various implementation-specific functions and general-purpose inputs and outputs are provided through eight multifunction terminals. These terminals present a system with options in PC/PCI DMA, serial and parallel interrupts, PC Card activity indicator LEDs, flash media LEDs, and other platform-specific signals. PCI complaint general-purpose events may be programmed and controlled through the multifunction terminals, and an ACPI-compliant programming interface is included for the general-purpose inputs and outputs.
The PCI7x21/PCI7x11 controller is compliant with the latest _PCI Bus Power Management Specification_, and provides several low-power modes, which enable the host power system to further reduce power consumption.
The PCI7x21/PCI7x11 controller also has a three-pin serial interface compatible with the Texas Instruments TPS2228 (default), TPS2226, TPS2224, and TPS2223A power switches. All four power switches provide power to the CardBus socket(s) on the PCI7x21/PCI7x11 controller. The power to each dedicated socket is controlled through separate power control pins. Each of these power control pins can be connected to an external 3.3-V power switch.
_PC Card Standard_ 8.1 compliant
_PCI Bus Power Management Interface Specification_ 1.1 compliant
_Advanced Configuration and Power Interface (ACPI) Specification_ 2.0 compliant
_PCI Local Bus Specification_ Revision 2.3 compliant
PC 98/99 and PC2001 compliant
Windows Logo Program 2.0 compliant
_PCI Bus Interface Specification for PCI-to-CardBus Bridges_
Fully compliant with provisions of IEEE Std 1394-1995 for a high-performance serial bus and IEEE Std 1394a-2000
Fully compliant with _1394 Open Host Controller Interface Specification_ 1.1
1.5-V core logic and 3.3-V I/O cells with internal voltage regulator to generate 1.5-V core VCC
Universal PCI interfaces compatible with 3.3-V and 5-V PCI signaling environments
Supports PC Card or CardBus with hot insertion and removal
Supports 132-MBps burst transfers to maximize data throughput on both the PCI bus and the CardBus
Supports serialized IRQ with PCI interrupts
Programmable multifunction terminals
Many interrupt modes supported
Serial ROM interface for loading subsystem ID and subsystem vendor ID
ExCA-compatible registers are mapped in memory or I/O space
Intel 82365SL-DF register compatible
Supports ring indicate, SUSPEND\, and PCI CLKRUN\ protocols
Provides VGA/palette memory and I/O, and subtractive decoding options, LED activity terminals
Fully interoperable with FireWire and i.LINK implementations of IEEE Std 1394
Compliant with _Intel Mobile Power Guideline 2000_
Full IEEE Std 1394a-2000 support includes: connection debounce, arbitrated short reset, multispeed concatenation, arbitration acceleration, fly-by concatenation, and port disable/suspend/resume
Power-down features to conserve energy in battery-powered applications include: automatic device power down during suspend, PCI power management for link-layer, and inactive ports powered down, ultralow-power sleep mode
Two IEEE Std 1394a-2000 fully compliant cable ports at 100M bits/s, 200M bits/s, and 400M bits/s
Cable ports monitor line conditions for active connection to remote node
Cable power presence monitoring
Separate cable bias (TPBIAS) for each port
Physical write posting of up to three outstanding transactions
PCI burst transfers and deep FIFOs to tolerate large host latency
External cycle timer control for customized synchronization
Extended resume signaling for compatibility with legacy DV components
PHY-Link logic performs system initialization and arbitration functions
PHY-Link encode and decode functions included for data-strobe bit level encoding
PHY-Link incoming data resynchronized to local clock
Low-cost 24.576-MHz crystal provides transmit and receive data at 100M bits/s, 200M bits/s, and 400M bits/s
Node power class information signaling for system power management
Register bits give software control of contender bit, power class bits, link active control bit, and IEEE Std 1394a-2000 features
Isochronous receive dual-buffer mode
Out-of-order pipelining for asynchronous transmit requests
Register access fail interrupt when the PHY SCLK is not active
PCI power-management D0, D1, D2, and D3 power states
Initial bandwidth available and initial channels available registers
PME\ support per _1394 Open Host Controller Interface Specification_
Advanced submicron, low-power CMOS technology
FireWire is a trademark of Apple Computer, Inc.
i.LINK is a trademark of Sony Corporation of America.
