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**800 series
***810 (Whitney) 04/26/99...
***810L (Whitney) 04/26/99...
***810-DC100 (Whitney) 04/26/99...
***810e (Whitney) 09/27/99...
***810e2 (Whitney) 01/03/01...
***815 (Solano) 06/19/00...
***815e (Solano-2) 06/19/00...
***815em (Solano-?) 10/23/00...
***815ep (Solano-3) c:Nov'00...
***815p (Solano-3) c:Mar'01...
***815g (Solano-3) c:Sep'01...
***815eg (Solano-3) c:Sep'01...
***820 (Camino) 11/15/99...
***820e (Camino-2) 06/05/00...
***830M (Almador) 07/30/01...
***830MP (Almador) 07/30/01...
***830MG (Almador) 07/30/01...
***840 (Carmel) 10/25/99...
***845 (Brookdale) 09/10/01...
***845MP (Brookdale-M) 03/04/02...
***845MZ (Brookdale-M) 03/04/02...
***845E (Brookdale-E) 05/20/02...
***845G (Brookdale-G) 05/20/02...
***845GL (Brookdale-GL) 05/20/02...
***845GE (Brookdale-GE) 10/07/02...
***845PE (Brookdale-PE) 10/07/02...
***845GV (Brookdale-GV) 10/07/02...
***848P (Breeds Hill) c:Aug'03...
***850 (Tehama) 11/20/00...
***850E (Tehama-E) 05/06/02...
***852GM (Montara-GM) 01/14/03...
***852GMV (Montara-GM) ???...
***852PM (Montara-GM) 06/11/03...
***852GME (Montara-GM) 06/11/03...
***854 (?) 04/11/05...
***855GM (Montara-GM) 03/12/03...
***855GME (Montara-GM) 03/12/03...
***855PM (Odem) 03/12/03...
***860 (Colusa) 05/21/01...
***865G (Springdale) 05/21/03...
***865PE (Springdale-PE) 05/21/03...
***865P (Springdale-P) 05/21/03...
***865GV (Springdale-GV) c:Sep'03...
***875P (Canterwood) 04/14/03...
*Headland/G2...
*HMC (Hulon Microelectronics)...
*Logicstar...
*Motorola...
*OPTi...
**82C546/547 Python PTM3V c:94
***Notes:...
***Info:
The OPTi Python Chipset provides a highly integrated solution for
fully compatible, high-performance PC/AT platforms. Together, with
OPTi's 82C206 Integrated Peripheral Controller (IPC), this chipset
will support the Pentium processor in the most cost effective and
feature-rich designs available today. This highly integrated approach
provides the foundation for a cost effective platform without
compromising performance. The OPTi Python Chipset supplies a powerful
solution positioned to deliver value without neglecting quality,
compatibility, or reliability.
The Python Chipset is comprised of two chips, the 82C547 System
Controller (SYSC) and the 82C546 AT Bus Controller (ATC). A complete
Pentium processor solution consists of the Python Chipset and the
82C206 Integrated Peripheral Controller (IPC).
82C546 (ATC) AT Bus Controller
The 82C546 ATC integrates the AT bus interface and data buffers for
transfers between the CPU data bus, local data bus and the DRAM data
bus. It also provides the ISA to local bus command translation.
o 208-pin PQFP
o Data bus buffer (host data to memory data)
o Data bus buffer control (ISA to memory)
o Parity generation and detection circuitry
o Keyboard controller chip select
o Local bus interface (ISA to local bus command translation)
82C547 (SYSC) System Controller
The 82C547 SYSC provides the control functions for the host CPU
interface, the 32-bit local bus interface, the 64-bit Level 2 (12)
cache and the 64-bit DRAM bus. The SYSC also controls the data flow
between the CPU bus, the DRAM bus, the local bus, and the 8/16-bit ISA
bus.
o 160-pin PQFP
o Pentium CPU interface
o DRAM controller
o L2 cache controller
o Ll cache controller
o Local bus interface
o Reset generation
o Arbitration logic
o Data bus buffer control (memory data to/from host data)
o Extended DMA page register
o Keyboard emulation of A20M# and CPU warm reset
o Port B and Port 92h Register
82C206 (IPC) Integrated Peripherals Controller
The 82C206 IPC provides two DMA controllers, two interrupt control-
lers, one timer/counter, and a real-time clock in an industry standard
single-chip solution for the peripherals attached to the PC/AT
peripheral bus.
o 84-pin PLCC or 100-pin PQFP
o Supports four DMA transfer modes
o Special Commands provided for ease of programming
Support Chips
The 82C606A and 82C606B are two buffer/translation devices used to
translate 3.3V signals to 5.0V signal levels in Python motherboard
solutions. These devices buffer the CPU address bus to the ISA and VL
address buses, the 82C546 ATC's memory data bus to the ISA data bus,
the peripheral XD bus to the ISA SA and SD buses. The 82C606A and
82C606B integrate a number of glue logic TTL devices (approximately
eleven), hence reducing the amount of TTL on the motherboard. The
82C606A and 82C606B devices are actually the same device with two
strapping options. Pulling the CONFI/2# pin high causes the device to
function in the 82C606A Mode. Pulling the CONFII2# pin low configures
the device to function in the 82C606B Mode of operation.
o 100-pin PQFP
o Mixed voltage to support 3.3V to 5.0V signal translation
o Two devices replace approximately eleven TTL devices
***Configurations:...
***Features:...
**82C556/7/8 Viper [no datasheet] ?...
**82C556/7/8N Viper-N Viper Notebook Chipset <05/25/95...
**82C556M/7M/8E Viper-N+ Viper Notebook Chipset c:96...
**82C566/7/8 Viper-Max Chipset Scalable MultiMedia PC Solution ?...
**82C571/572 486/Pentium c:93...
**82C576/7/8 Viper Xpress [no datasheet] ?...
**82C576/8/9 Viper XPress+ [no datasheet, some info] <01/16/97...
**82C596/597 PTMAWB Pentium Adaptive Write-back (Cobra) c:93...
**82C650/1/2 Discovery (Pentium Pro) [no datasheet] ?...
**82C681/2/6/7 386/486WB EISA c:92...
**82C683 386/486AWB EISA [no datasheet] ?...
**82C693/6/7 Pentium uP Write Back Cache EISA c:93...
**82C700 FireStar c:97...
**82C701 FireStar Plus c:97...
**82C750 Vendetta [no datasheet] ?...
**82c801 SCWB2 DX Single Chip Solution c:92...
**82C802 SCWB2 PC/AT Single Chip [no datasheet] ?...
**82C802G/GP System/Power Management Controller (cached) c:93...
**82C895 System/Power Management Controller (cached) c:Sep94...
**82C898 System/Power Management Controller (non-cache)c:Nov94...
**
**Support Chips:
**82C601/2 Buffer Devices <Nov94...
**82C822 PCIB (VLB-to-PCI bridge) c:94...
**Other:...
*PC CHIPS/Amptron/Atrend/ECS/Elpina/etc...
*SIS...
*Symphony...
*TI (Texas Instruments)...
*UMC...
*Unresearched:...
*VIA...
**SL9090/A Universal PC/AT Clock Chip <oct88
***Info:
The SL9090 is a Universal Clock Chip capable of generating all
essential clock signals that are used in a typical P.C. design. This
device can support 8086, 8088, 80286, 803865X, 80386DX and 80486
microprocessor based designs. The outputs of this clock chip are
programmable through the keyboard and also by jumper settings. Clock
options of 60 MHz, 50 MHz, 48 MHz, 40 MHz, 32 MHz and their multiples
are available, in order to give flexibility to the user.
Frequency selection is done by the three decode inputs FS0-FS2 as
shown in Table 1. [see datasheet] FSEL is used to control the system
I/O bus clock. During a CPU cycle the FSEL remains high, and the
frequency selection on the outputs is determined by the FS0-FS2
pins. When an I / O cycle is detected, the FSEL goes low and fixed
frequencies of 16 MHz, 8 MHz and 4 MHz are available on output pins
F12 (pin 8), F122 (pin 5) and F124 (pin 3). Designer have an option to
run the system I/O clock at half the CPU clock as well. This is
achieved by connecting the FSEL pin to the keyboard controller in
order to hold this pin high during an I/O cycle. This allows the FSEL
signal to be controlled through the keyboard by pressing CTL ALT +" or
"CTL ALT-".
The reference frequency of 14.318 MHz is also supplied to the output
through the FREF pin for the I/O slots. This frequency is divided by 2
internally and 7.159 MHz is supplied to the output through the FREF2
pin for the keyboard controller. The FREF12 pin has an output of 1.19
MHz and is used by the timerl (8254) in the peripheral controller for
refresh. All outputs are capable of 8mA drive.
The SL9090 consists of two independent Voltage controlled Oscillators
(VCOs) integrated with dividers, phase sensitive detectors, charge
pumps and buffer amplifiers to provide the desired glitch free
frequencies. An externally generated signal of 14.318 MHz is used as
the reference frequency for the SL9090. This reference frequency is
fed into the phase sensitive detectors to differentiate the difference
in phase between the reference frequency being generated by the
VCOs. This becomes an input to the charge pumps which in turn
generates a signal to sink or source the charge. This signal is
buffered by the buffer amplifiers between the charge pumps and the
VCOs. The output from the VCOs are divided to generate the appropriate
outputs.
The SL9090 is designed, using advanced Bipolar technology and is
available in a 44 pin PLCC. It requires only one crystal (14.3 MHz)
and a few RC components to generate all the essential clocks that are
required for a PC. design. As there is only one crystal on the system
board, the Electro Magnetic Radiation is reduced significantly
facilitating FCC approval. This makes the SL9090 an ideal low cost
solution with capabilities for universal applications.
***Versions:...
***Features:...
**SL9095 Power Management Unit ?...
**SL9151 80286 Page Interleave Memory Controller (16-25MHz) ?...
**SL9250 80386SX Page Mode Memory Controller (16/20MHz 8MB) ?...
**SL9251 80386SX Page Interleave Memory Controller <04/13/90...
**SL9252 80386SX System and Memory Controller <06/12/90...
**SL9350 80386DX Page Mode Memory Controller (16-25MHz 16MB) ?...
**SL9351 80386DX Page Interleave Memory Controller (33MHz) ?...
**SL9352 80386DX System and Memory Controller <06/12/90...
**SLXXXX Other chips...
**
**VT82C470 "Jupiter", Chip Set (w/o cache) 386 [no datasheet] ?
**VT82C475 "Jupiter", Chip Set (w/cache) 386 [no datasheet] ?
**VT82C486/2/3 "GMC chipset" [no datasheet, some info] ?...
**VT82C495/480 "Venus" Chip Set [no datasheet] ?
**VT82C495/491 ? EISA Chip Set [no datasheet, some info] <93...
**VT82C496G Pluto, Green PC 80486 PCI/VL/ISA System <05/30/94...
**VT82C530MV 3.3V Pentium chipset [no datasheet, some info]<05/30/94...
**VT82C570M Apollo Master, Green Pentium/P54C <06/22/95...
**VT82C580VP Apollo VP, Pentium/M1/K5 PCI/ISA System <02/15/96...
**VT82C580VPX Apollo VPX, VPX/97, Pentium with 66/75MHz Bus <01/09/97...
**VT82C590 Apollo VP2, VP2/97, Single-Chip Pentium 66MHz <01/10/97...
**VT82C597/AT Apollo VP3, Single-Chip for Pentium with AGP <10/03/97...
**VT82C598MVP Apollo MVP3,Single-Chip 66/75/83/100MHz & AGP <09/22/97...
**VT8501 Apollo MVP4,Single-Chip 66-100MHz & AGP <11/04/98...
**VT82C680 Apollo P6, Pentium-Pro Chip Set <08/30/96...
**Support chips:
**VT82C505 Pentium/486 VL to PCI Bridge <05/30/94...
**VT82C586/A/B PCI Integrated Peripheral Controller <10/13/96...
**VT82C596/A Mobile PCI Integrated Peripheral Controller <11/05/97...
**VT82C686A/B PCI Super-I/O Integrated Peripheral Ctrl. <02/10/98...
**Later P-Pro/II/III/Celeron...
**Later AMD...
**Other...
*VLSI...
*Western Digital...
*Winbond...
*ZyMOS...
*General Sources:...
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