Preliminary
PowerPC 405GPr Embedded Processor Data Sheet
Features
• IBM PowerPC
405 32-bit RISC processor core
operating up to 333MHz with 16KB D-cache
• PC-133 synchronous DRAM (SDRAM) interface
- 32-bit interface for non-ECC applications
- 40-bit interface serves 32 bits of data plus 8
check bits for ECC applications
• 4KB on-chip memory (OCM)
• External peripheral bus
- Flash ROM/Boot ROM interface
- Direct support for 8-, 16-, or 32-bit SRAM
and external peripherals
- Up to eight devices
- External Mastering supported
• DMA support for external peripherals, internal
UART and memory
- Scatter-gather chaining supported
- Four channels
• PCI Revision 2.2 compliant interface (32-bit, up
to 66MHz)
- Synchronous or asynchronous PCI Bus
interface
- Internal or external PCI Bus Arbiter
• Ethernet 10/100Mbps (full-duplex) support with
media independent interface (MII)
• Programmable interrupt controller supports 13
external and 19 internal edge triggered or level-
sensitive interrupts
• Programmable timers
• Two serial ports (16550 compatible UART)
• One IIC interface
• General purpose I/O (GPIO) available
• Supports JTAG for board level testing
• Internal processor local Bus (PLB) runs at
SDRAM interface frequency
• Supports PowerPC processor boot from PCI
memory
• Unique software-accessible 64-bit chip ID
number (ECID).
Description
Designed specifically to address embedded
applications, the PowerPC 405GPr (PPC405GPr)
provides a high-performance, low-power solution
that interfaces to a wide range of peripherals by
incorporating on-chip power management features
and lower power dissipation requirements.
This chip contains a high-performance RISC
processor core, SDRAM controller, PCI bus
interface, Ethernet interface, control for external
ROM and peripherals, DMA with scatter-gather
support, serial ports, IIC interface, and general
purpose I/O.
Technology: IBM CMOS SA-27E, 0.18
µ
m
(0.11
µ
m L
eff
)
Package: 456-ball (35mm or 27mm) enhanced
plastic ball grid array (E-PBGA)
Power (typical): 1.1W at 266MHz
While the information contained herein is believed to be accurate, such information is preliminary, and should not be
relied upon for accuracy or completeness, and no representations or warranties of accuracy or completeness are made.
1