GD82559 Intel, GD82559 Datasheet
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... Intel-Based Electronic Classroom Student Computing Station Based on the Intel Celeron™ Processor and Intel 810 Chipset Reference Configuration August 2000 ® ® Order Number: 273292-002 ...
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... Information in this document is provided in connection with Intel products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Intel's Terms and Conditions of Sale for such products, Intel assumes no liability whatsoever, and Intel disclaims any express or implied warranty, relating to sale and/or use of Intel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right ...
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... Introduction ......................................................................................................................5 1.1 Purpose .................................................................................................................5 1.2 Terminology........................................................................................................... 5 1.3 Revision History .................................................................................................... 5 2.0 Intel-Based Electronic Classroom Environment Overview ..........................................6 3.0 Intel-Based Electronic Classroom Setup and Operating Environment.......................7 3.1 Intel-Based Electronic Classroom Configuration................................................... 8 3.1.1 Network Environment ............................................................................... 8 3.1.2 Teacher Station Management System ..................................................... 9 3.1.3 Multimedia Teaching Software ................................................................. 9 3.1.4 Application Software............................................................................... 10 3 ...
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... Intel-Based Electronic Classroom Student Computing Station Figures 1 Typical Intel-Based Electronic Classroom Setup .................................................. 7 2 Building Block of the Intel-Based Electronic Classroom Student Computing Station Motherboard ......................................................................... 12 3 Topology for Single Processor Designs with Single End Termination (SET) ...... 13 4 Placement of Termination Resistor ..................................................................... 20 5 Trace Geometry .................................................................................................. 20 6 Cover Sheet Schematic ...
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... This application note describes how Intel can be used in designs for Intel-based electronic classroom student computing stations. An Intel-based electronic classroom is an educational setting in which a network of computers is used as a primary teaching, learning, and assessment tool. A typical Intel-based electronic classroom contains an instructor’s system that broadcasts application software to, and often receives data from, student computing stations ...
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... An Intel-based electronic classroom LAN environment can consist student computing stations, a teacher station, and a network server Intel-based electronic classroom, every student computing station is administered centrally. These student computing stations have high reliability and security, and low maintenance costs. The student computing stations have a subset ...
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... LAN infrastructure. This solution reduces overall system cost, simplifies wiring and upgrade requirements, and enables the use of higher performance processors. The components of a typical Intel-based electronic classroom and their recommended configuration are described in Application Note ...
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... Software basic reference: 3.1 Intel-Based Electronic Classroom Configuration The configuration of the Intel-based electronic classroom depends on the size of the classroom, the network design, and the use of the multimedia broadcasting software. The following describes an example configuration that consists of five main parts: • Network environment • ...
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... Students can submit questions through MIC or keyboard (using a special function key). — Two way or multi-way online questioning is supported “chat” mode. • Remote reset — The teacher can reset any or all Intel-based electronic classroom student computing stations if an error occurs in the system. • Examinations can be administered and completed online. ...
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... Remote Booting Intel-Based Electronic Classroom Student Computing Stations from Server During the remote boot process, the Intel-based electronic classroom student computing stations contact the server (using Preboot Execution Environment in the boot ROM of the network interface), install a boot image, and boot the operating system that is pre-configured on the server. ...
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... LPX form factor or Flex ATX design. The LPX form factor enables the student computing stations to have a very slim casing, which is desirable for small Intel-based electronic classroom environments. Flex ATX helps reduce board size and cost. The components listed below provide an example of a motherboard design based on the Celeron processor and Intel 810 chipset ...
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... BGA PCI 33 Low Pin Count Interface 82802AB 4Mb AC'97 2.1 Super IO* SDRAM Memory 100 MHz GD82559 Intel Network Controller Support 10/100 Mbit One RJ-45 port SMBus One Flash boot ROM 1 PCI REQ/GNT COM1 & COM 2 Serial Ports Parallel Port PS/2 Mouse ...
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... MMX™ media technology instructions for enhanced media and communication performance. The Intel Celeron processor PPGA is based on the P6 family processor core and is provided in a PPGA package for use in low cost systems in the value PC and Intel-based electronic classroom student computing station market segments. The Intel Celeron processor PPGA utilizes the AGTL+ system bus used by the Pentium systems ...
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... Intel has developed technology that enhances the performance and value of Intel Celeron processor-powered systems. Built on the strong foundation of Intel 440BX AGPset technology, the Intel 810 chipset provides next generation features and great graphics performance at a lower cost. The Intel 810 chipset contains three core components: 1. Host Controller — ...
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... The Intel 82810 Graphics Memory Controller Hub (GMCH0) The Intel 810 chipset provides a rich and robust 2-D and 3-D graphics using an integrated chipset design that utilizes second-generation graphics technology. At the core of the 810 chipset is a memory controller with built-in graphics technology. The Intel 810 chip optimizes system memory arbitration, similar to AGP technology, resulting in a more responsive and cost-effective system ...
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... The Intel 82801 I/O Controller Hub (ICH) The 82801 I/O Controller Hub (ICH) employs the Intel Accelerated Hub Architecture to make a direct connection from the graphics and memory to the integrated AC97 controller, the IDE controllers, dual USB ports, and PCI add-in cards. ...
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... This cable conforms to the Small Form Factor Specification SFF-8049. This specification can be obtained from the Small Form Factor Committee. To determine if ATA/66 mode can be enabled, the Intel 810 chipset using the ICH requires the system BIOS to attempt to determine the cable type used in the system ...
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... The AMR specification provides a mechanism for AC’97 codecs riser card. This is important for modem codecs as it helps ease international certification of the modem. For the Intel-based electronic classroom student computing station, the audio codec is integrated on the motherboard to avoid compatibility issues and robustness. A modem codec is optional for electronics classroom ...
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... PCI Local Bus Specification, Revision 2.2. The 82801AA ICH supports 6 PCI bus masters (excluding ICH), by providing 6 REQ#/GNT# pairs. The PCI network controller (GD82559) is integrated on board; therefore, an extra PCI slot is expandable for a PCI network broadcasting card (if implemented). ...
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... Intel-Based Electronic Classroom Student Computing Station Figure 4. Placement of Termination Resistor The key factors in controlling trace EMI radiation are the trace length and the ratio of trace-width to trace-height above the ground plane. To minimize trace inductance, high-speed signals, such as the clock, and signal layers that are close to a ground plane or power plane should be as short and as wide as is practical ...
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... Wired for Management Wired for Management (WfM Intel initiative to improve the manageability of desktop, mobile, server and embedded systems. The goal of WfM is to reduce the total cost of ownership (TCO) through improved manageability in the following four technology areas: • Instrumentation • Remote Service Boot • ...
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... Low Pin Count (LPC) Interface In the Intel 810 chipset platform, the Super I/O* (SIO) component has migrated to the Low Pin Count (LPC) interface. Migration to the LPC interface allows for lower cost Super I/O designs. The LPC Super I/O component requires the same feature set as traditional Super I/O components. ...
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... Traditional teaching media such as projector, video player, audio recorder, and black board are being replaced in the Intel-based electronic classroom by new computer-based teaching media. Audio, video and 2-D/3-D graphics can be introduced in the Intel-based electronic classroom. The classroom can be connected to the Internet by using modem or Intel router. ...
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... Chipset Design Guide ® Intel 82810 Chipset: Intel 82810/82810-DC100 Graphics and Memory Controller Hub (GMCH) datasheet ® Intel 82801AA (ICH) and Intel 82801AB (ICH0) I/O Controller Hub datasheet ® Intel 82801 FirmWare Hub (FWH) datasheet ® Intel Celeron™ Processor datasheet VRM 8.2 DC-DC Converter Design Guidelines ® ...
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... Appendix B Intel-Based Electronic Classroom Schematics Application Note Intel-Based Electronic Classroom Student Computing Station 27 ...
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PG. PCI CONN 1 15 DATA DATA CTRL CTRL ADDR ADDR LPC Bus ...
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VCC52 R32 VCC51 V32 VCC50 Z32 VCC49 AH32 VCC48 AM32 VCC47 B30 VCC46 F30 VCC45 AK34 VCC44 D28 VCC43 AJ29 VCC42 AM28 VCC41 F26 VCC40 D24 VCC39 AJ25 VCC38 AM24 VCC37 F22 VCC36 D20 VCC35 AJ21 VCC34 AM20 VCC33 B18 ...
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VCC75 Y35 VCC74 AA37 VCC73 K32 VCC72 F14 VCC71 AH24 VCC70 AD32 VCC69 D32 VCC68 D36 VCC67 H36 VCC66 R36 VCC65 V36 VCC64 B22 VCC63 AH36 VCC62 B34 VCC61 F34 VCC60 K34 VCC59 P34 VCC58 T34 VCC57 X34 VCC56 AB34 ...
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SEL1_PU VDD3_3[7] 44 VDD3_3[6] 38 VDD3_3[5] 33 VDD3_3[4] 27 VDD3_3[3] 21 VDD3_3[2] 10 VDD3_3[1] 9 VDD3_3[ XTAL + VSS3_3[7] 47 VSS3_3[6] 41 VSS3_3[5] 35 ...
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VCC_CORE[13] F7 VCC_CORE[12] F8 VCC_CORE[11] F10 VCC_CORE[10] F14 VCC_CORE[9] F16 VCC_CORE[8] F17 VCC_CORE[7] V7 VCC_CORE[6] V8 VCC_CORE[5] V9 VCC_CORE[4] V10 VCC_CORE[3] V14 VCC_CORE[2] V15 VCC_CORE[1] V16 VCC_CORE[0] V17 VCC1_8[2] U18 VCC1_8[1] P6 VCC1_8[0] B20 VSS[23] N13 VSS[22] N14 VSS[21] M10 ...
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VCC3_3[15] R18 VCC3_3[14] J18 VCC3_3[13] F18 VCC3_3[12] G21 VCC3_3[11] L21 VCC3_3[10] B2 VCC3_3[9] F6 VCC3_3[8] K6 VCC3_3[7] F9 VCC3_3[6] F15 VCC3_3[5] G3 VCC3_3[4] L3 VCC3_3[3] C15 VCC3_3[2] C7 VCC3_3[1] C11 VCC3_3[0] D4 VSS[45] J2 VSS[44] L4 VSS[43] M1 VSS[42] P3 ...
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C222A 0.1UF C216A 0.01UF C217A VCCDACA2 AB21 VCCDACA1 AB23 VCCDA AC20 VCCBA E19 VCCHA GRS_PU30 8 1 GRS_PU31 5 4 GRS_PU26 GRS_PU28 VSSDACA ...
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ECC7 137 ECC6 136 ECC5 106 ECC4 105 ECC3 53 ECC2 52 ECC1 22 ECC0 21 DQ63 SM_MD63 161 DQ62 SM_MD62 160 DQ61 SM_MD61 159 DQ60 SM_MD60 158 DQ59 SM_MD59 156 DQ58 SM_MD58 155 DQ57 SM_MD57 154 DQ56 SM_MD56 153 ...
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VCC1_8_7 J16 VCC1_8_6 H16 VCC1_8_5 L15 VCC1_8_4 G15 VCC1_8_3 K14 VCC1_8_2 H14 VCC1_8_1 G13 VCC3_3_17 E13 VCC3_3_16 N13 VCC3_3_15 N5 VCC3_3_14 D16 VCC3_3_13 E5 VCC3_3_12 E6 VCC3_3_11 A5 VCC3_3_10 C8 VCC3_3_9 C11 VCC3_3_8 M14 VCC3_3_7 T16 VCC3_3_6 R13 VCC3_3_5 U10 ...
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A C 5VREF C15 VCCSUS1 L1 VCCSUS2 N1 VCCRTC G1 SLP_S5 VBAT + JP14_PU ...
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FGPI2_PD 1 8 FGPI3_PD 2 7 FGPI4_PD 3 6 IC_PD 4 5 ...
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C323A 0.1UF C229A 0.1UF C297A 0.1UF C246A 0.1UF C287A 2.2UF + 1 2 C99A VCC3 93 VCC2 65 VCC1 53 VTR 18 VREF 44 SUSSTAT_PU AVSS 40 GND4 76 GND3 60 GND2 31 GND1 7 ...
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key ...
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C186A 470 R132A 10K R137A 5.6K R134A 0.047UF C187A 470 VCC 14 R101A 10K R138A 5.6K R135A GND 7 ...
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C12A 68UF + 1 2 C202A 2 1 47PF C98A 47PF C8A 47PF C16A 47PF C13A 2 1 0.1UF C9A 68UF + 1 2 C201A ...
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C91A 180PF C95A C93A 180PF 180PF ...
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C369A 100PF C368A 100PF C330A 100PF C329A 100PF C328A 100PF C327A 100PF C326A 100PF C325A 1.0UF C374A D S 2N7002LT1 100PF C310A 100PF C311A 100PF C309A 100PF C315A 100PF C313A 100PF C314A 100PF C312A 100PF C316A ...
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Kybd PS/2 Mse PS/2 0.1UF C1A 2 PS2_PD 470PF C2A 470PF C5A 470PF C4A 470PF C3A 0.01UF C195A 0.01UF C191A 0.01UF C198A 0.01UF C199A ...
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CRT5V_F 3.3PF 3.3PF C111A C106A 3.3PF 3.3PF C109A C105A 10PF C101A 10PF C208A 10PF C116A 10PF C112A 3.3PF 3.3PF 3.3PF C119A C100A C103A 3.3PF 3.3PF 3.3PF C122A C104A C102A 0.1UF C227A ...
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VCC[25] L10 VCC[24] L9 VCC[23] L5 VCC[22] L4 VCC[21] K11 VCC[20] K10 VCC[19] K9 VCC[18] K8 VCC[17] K7 VCC[16] K6 VCC[15] K5 VCC[14] K4 VCC[13] J11 VCC[12] J10 VCC[11] J9 VCC[10] J8 VCC[9] J7 VCC[8] J6 VCC[7] J5 VCC[6] H8 ...
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JP12_PU JP11_PU JP7_PU ACT_CR RDC 8 RDC TDC 11 TDC SHLD2 18 SHLD1 17 RJ-45 RXC 2 RXC_PD TXC 1 TXC_PD RJ78_PD RJ45_PD 0.1UF C268A 0.1UF C266A ...
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C225A 100UF + 1 2 C270A 1.0UF C43A + MMBT3904LT1 VCC GND 14 7 22UF + 1 2 C74A ...
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SI4410DY SI4410DY ...
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C292A 0.1UF C279A FP_PD VCC GND 14 VCC GND 14 7 330 R98A 330 R97A 2N3904 RP62A 4.7K R172A V3SBLED 2 1 ...
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VCC GND 14 7 VCC GND 14 VCC GND VCC GND ...
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VCC GND VCC GND VCC GND VCC GND VCC GND VCC GND VCC GND VCC GND ...
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1 2 ...
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C317A C324A 2.2UF + C80A 1 2 C372A C81A 22UF + 2 1 C84A C321A 0.1UF C367A 0.1UF C333A C360A 22UF + 1 2 C62A 22UF + 2 1 C69A 22UF + 1 2 C70A 22UF + 1 2 C85A ...
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