DATA SHEET MOS INTEGRATED CIRCUIT µPD72862 IEEE1394 OHCI HOST CONTROLLER The µPD72862 is IEEE1394 OHCI-Link controller. The µPD72862 complies with the P1394a draft 2.0 specifications and works up to 400 Mbps. It supports both of the Cardbus interface and the PCI bus interface. FEATURES • Compliant with Link Layer Services as defined in 1394 Open Host Controller Interface specification release 1.0 • Compliant with protocol enhancement as defined in P1394a draft 2.0 • Modular 32-bit host interface compliant to PCI Specification release 2.1 • Supports PCI-Bus Power Management Interface Specification release 1.0 • Supports Cardbus • Equipped CIS register • Cycle Master and Isochronous Resource Manager capable • Compatible to PHY Layer implementation of 100/200/400 Mbps via 2/4/8-bit data interface • Built-in FIFOs for isochronous transmit (1024 bytes), asynchronous transmit (1024 bytes), and receive (2048 bytes) • 32-bit CRC generation and checking for receive/transmit packets • 4-isochronous transmit DMAs and 4-isochronous receive DMAs supported • Support both IEEE1394-1995 compliant PHY and P1394a compliant PHY • Internal control and operational registers direct-mapped to PCI configuration space • 2-wire Serial EEPROMTM interface supported ORDERING INFORMATION Part number µPD72862GC-9EU Package 100-pin plastic TQFP (Fine pitch) (14 x 14) The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version. Not all devices/types available in every country. Please check with local NEC representative for availability and additional information. Document No. S14265EJ2V0DS00 (2nd edition) Date Published December 1999 NS CP (K) Printed in Japan The mark ★ shows major revised points. 1999 µPD72862 Firewarden™ ROADMAP Firewarden Series PC Application OHCI Link µPD72862 IEEE1394-1995 Core Development OHCI Link µPD72861 OHCI Link µPD72860 1 Chip OHCI+PHY µPD72870A 800M/1.6G p1394.b Link µPD7286x 1 Chip OHCI+PHY µPD72870 Hotline Link 1997 2 1998 1999 Data Sheet S14265EJ2V0DS00 2000 2001 µPD72862 BLOCK DIAGRAM PCI Controller Interface (Master, Parity Check & Generator) Byte Buf Swap PCI-DMA CSR (CIS) IOREG PFCOMM OPCI Internal Bus PCIS Bus (PCI Slave Bus) PCIS_CNT ATDMA PCICFG Byte Swap ATF Byte Swap ITF ITCF PAU GRSU OPCIBUS_ARB Byte RF Swap GRQU RCF ITDMA IOREG Link Layer Core PHY/Link Interface PCI Bus / Cardbus Interface Serial ROM Interface IRDMA0IRDMA3 SFIDU ATDMA : Asynchronous Transmit DMA ATF : Asynchronous Transmit FIFO CIS : CIS Register CSR : Control and Status Registers IOREG : IO Registers IRDMA : Isochronous Receive DMA ITCF : Isochronous Transmit Control FIFO ITDMA : Isochronous Transmit DMA ITF : Isochronous Transmit FIFO OPCIBUS_ARB : OPCI Internal Bus Arbitration PAU : Physical Response and Request Unit PCICFG : PCI Configuration Registers PCIS_CNT : PHY Control Isochronous Control PFCOMM : Pre Fetch Command FIFO RCF : Receive Control FIFO RF : Receive FIFO SFIDU : Self-ID DMA Data Sheet S14265EJ2V0DS00 3 µPD72862 PIN CONFIGURATION (Top View) Though the current implementation of the µPD72862 includes signal pins for debugging and testing purpose, the package remains a cost efficient 100-pin TQFP package. AD22 AD23 3.3V VDD IDSEL CBE3 AD24 AD25 PCI VDD AD26 AD27 AD28 AD29 AD30 AD31 VSS REQ GNT PCLK PRST INTA PME CLKRUN LINKON VSS 99 98 97 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 96 VSS 100 • 100-pin plastic TQFP (Fine pitch) (14 x 14) 18 58 NC V SS 19 57 GROM_EN CBE1 20 56 GROM_SCL AD15 21 55 GROM_SDA AD14 22 54 CARD_ON AD13 23 53 NC AD12 24 52 NC 3.3V V D D 25 51 3.3V V D D 4 50 D7 PAR VSS 59 49 17 NC D6 SERR 48 60 NC 16 47 D5 PERR IC(L) D4 61 46 62 15 45 14 STOP CIS_ON IC(L) DEVSEL 44 V SS IC(H) 63 43 13 PIN_EN D3 42 64 AD0 12 TRDY 41 D2 AD1 65 40 11 IRDY AD2 D1 PCI V D D 39 66 AD3 10 38 D0 FRAME VSS 67 37 9 PCI VDD DIRECT CBE2 36 68 AD4 8 35 CTL1 AD16 AD5 69 34 7 AD6 CTL0 AD17 33 70 AD7 6 32 V SS V SS 31 71 VSS 5 CBE0 SCLK AD18 30 72 AD8 4 29 LREQ AD19 AD9 73 28 3 AD10 LPS AD20 27 3.3V V D D 74 26 75 2 VSS 1 AD21 AD11 3.3V V D D Data Sheet S14265EJ2V0DS00 µPD72862 PIN NAME AD0-AD31 : PCI Multiplexed Address and Data CARD_ON : PCI/Card Select CBE0-CBE3 : Command/Byte Enables CIS_ON : CIS Register ON CLKRUN : PCICLK Running CTL0, CTL1 : PHY/Link Bi-directional Control DEVSEL : Device Select DIRECT : Auxiliary PHY/Link Signal D0-D7 : PHY/Link Bi-directional Data FRAME : Cycle Frame GNT : Bus_master Grant GROM_EN : Serial EEPROM Enable GROM_SCL : Serial EEPROM Clock Output GROM_SDA : Serial EEPROM Data Input / Output IC (H) : Internally Connected (High Clamped) IC (L) : Internally Connected (Low Clamped) IDSEL : ID Select INTA : Interrupt IRDY : Initiator Ready LINKON : Link-On Request LPS : Link Power Status LREQ : PHY/Link Request NC : Non-Connection PAR : Parity PCLK : PCI Clock PERR : Parity Error PIN_EN : Pin Enable Input PME : PME Output PRST : Reset REQ : Bus_master Request SCLK : PHY Clock SERR : System Error STOP : PCI Stop TRDY : Target Ready VDD : Supply Voltage VSS : Ground Data Sheet S14265EJ2V0DS00 5 µPD72862 CONTENTS 1. PIN 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 FUNCTIONS ..................................................................................................................................... 8 PCI Bus Interface Signals: (52 pins) .............................................................................................. 8 PCI/Cardbus Select Signals: (2 pins) ............................................................................................. 9 PHY/Link Interface Signals: (15 pins) .......................................................................................... 10 Serial ROM Interface Signals: (3 pins) ......................................................................................... 10 Miscellaneous Signal: (1 pin) ....................................................................................................... 10 IC: (3 pins) ...................................................................................................................................... 10 NC: (5 pins)..................................................................................................................................... 10 VDD: (8 pins) .................................................................................................................................... 10 VSS: (11 pins) .................................................................................................................................. 10 2. REGISTER DESCRIPTIONS................................................................................................................. 11 2.1 PCI Bus Mode Configuration Register ( CARD_ON=Low ) ........................................................ 11 2.1.1 Offset_00 VendorID Register .............................................................................................................12 2.1.2 Offset_02 DeviceID Register..............................................................................................................12 2.1.3 Offset_04 Command Register............................................................................................................12 2.1.4 Offset_06 Status Register ..................................................................................................................13 2.1.5 Offset_08 Revision ID Register ..........................................................................................................14 2.1.6 Offset_09 Class Code Register..........................................................................................................14 2.1.7 Offset_0C Cache Line Size Register..................................................................................................14 2.1.8 Offset_0D Latency Timer Register .....................................................................................................14 2.1.9 Offset_0E Header Type Register .......................................................................................................14 2.1.10 Offset_0F BIST Register ...................................................................................................................14 2.1.11 Offset_10 Base Address 0 Register .................................................................................................15 2.1.12 Offset_2C Subsystem Vendor ID Register.......................................................................................15 2.1.13 Offset_2E Subsystem ID Register....................................................................................................15 2.1.14 Offset_30 Expansion Rom Base Address Register..........................................................................15 2.1.15 Offset_34 Cap_Ptr Register .............................................................................................................15 2.1.16 Offset_3C Interrupt Line Register.....................................................................................................16 2.1.17 Offset_3D Interrupt Pin Register ......................................................................................................16 2.1.18 Offset_3E Min_Grant Register .........................................................................................................16 2.1.19 Offset_3F Max Lat Register .............................................................................................................16 2.1.20 Offset_40 PCI_OHCI_Control Register ............................................................................................16 2.1.21 Offset_60 Cap_ID & Next_Item_Ptr Register ...................................................................................17 2.1.22 Offset_62 Power Management Capabilities Register.......................................................................17 2.1.23 Offset_64 Power Management Control/Status Register...................................................................17 2.2 CardBus Mode Configuration Register ( CARD_ON=High ) ...................................................... 18 2.2.1 Offset_14/18 Base_Address_1/2 Register (CardBus Status Registers) ............................................19 2.2.2 Offset_28 Cardbus CIS Pointer..........................................................................................................20 2.2.3 Offset_80 CIS Area ............................................................................................................................20 3. SERIAL ROM INTERFACE.................................................................................................................. 21 3.1 Serial EEPROM Register ............................................................................................................... 21 3.2 Serial EEPROM Register Description .......................................................................................... 21 3.3 Load Control................................................................................................................................... 25 3.4 Programming Sequence Example................................................................................................ 25 6 Data Sheet S14265EJ2V0DS00 µPD72862 4. ELECTRICAL SPECIFICATIONS ......................................................................................................... 27 5. APPLICATION CIRCUIT EXAMPLE.................................................................................................... 30 6. PACKAGE DRAWING .......................................................................................................................... 31 7. RECOMMENDED SOLDERING CONDITIONS ................................................................................... 32 Data Sheet S14265EJ2V0DS00 7 µPD72862 1. PIN FUNCTIONS 1.1 PCI Bus Interface Signals: (52 pins) (1/2) Name PAR I/O I/O Pin No. 18 IOL Volts(V) PCI/Cardbus 5/3.3 Function Parity is even parity across AD0-AD31 and CBE0-CBE3. It is an input when AD0-AD31 is an input; it is an output when AD0-AD31 is an output. AD0-AD31 I/O 2-5, 7, 8, PCI/Cardbus 5/3.3 PCI Multiplexed Address and Data - 5/3.3 Command/Byte Enables are multiplexed Bus Commands & Byte 21-24, 27-30, 33-36, 39-42, 86-91, 93, 94, 98, 99 CBE0-CBE3 I 9, 20, 32, 95 FRAME I/O 10 enables. PCI/Cardbus 5/3.3 Cycle Frame is asserted by the initiator to indicate the cycle beginning and is kept asserted during the burst cycle. ★ If Cardbus mode (CARD_ON = 1), this pin is should be pulled up to VDD. TRDY I/O 13 PCI/Cardbus 5/3.3 Target Ready indicates that the current data phase of the transaction is ready to be completed. IRDY I/O 12 PCI/Cardbus 5/3.3 Initiator Ready indicates that the current bus master is ready to complete the current data phase. During a write, its assertion indicates that the initiator is driving valid data onto the data bus. During a read, its assertion indicates that the initiator is ready to accept data from the currently-addressed target. REQ O 84 PCI/Cardbus 5/3.3 Bus_master Request indicates to the bus arbiter that this device wants to become a bus master. GNT I 83 - 5/3.3 Bus_master Grant indicates to this device that access to the bus has been granted. IDSEL I 96 - 5/3.3 ID Select when actively driven, indicates that the IUHC is chipselected for configuration read/write transaction during the phase of device initialization. ★ If Cardbus mode (CARD_ON = 1), this pin is should be pulled up to VDD. DEVSEL I/O 14 PCI/Cardbus 5/3.3 Device Select when actively driven, indicates that the driving device has decoded its address as the target of the current access. STOP I/O 15 PCI/Cardbus 5/3.3 PCI Stop when actively driven, indicates that the target is requesting the current bus master to stop the transaction. 8 Data Sheet S14265EJ2V0DS00 µPD72862 (2/2) Name PME I/O O Pin No. 79 IOL Volts(V) PCI/Cardbus 5/3.3 ★ Function PME Output for power management enable. Caution The PME pin is not an N-channel open drain structure pin. Therefore, when using S3, S4, S5 state in ACPI, a circuit that can separate between the power supply and the PME pin externally is needed. ACPI: Advanced Configuration and Power Interface. Please refer to ACPI Specification. PCICLK Running as input, to determine the status of PCLK; as CLKRUN I/O 78 PCI/Cardbus 5/3.3 INTA O 80 PCI/Cardbus 5/3.3 Interrupt the PCI interrupt request A. PERR I/O 16 PCI/Cardbus 5/3.3 Parity Error is used for reporting data parity errors during all PCI output, to request starting or speeding up clock. transactions, except a Special Cycle. It is an output when AD0AD31 and PAR are both inputs. It is an input when AD0-AD31 and PAR are both outputs. SERR O 17 PCI/Cardbus 5/3.3 System Error is used for reporting address parity errors, data parity errors during the Special Cycle, or any other system error where the effect can be catastrophic. When reporting address parity errors, it is an output. PRST I 81 - 5/3.3 Reset PCI reset PCLK I 82 - 5/3.3 PCI Clock 33 MHz system bus clock. 1.2 PCI/Cardbus Select Signals: (2 pins) Name I/O Pin No. IOL Volts(V) Function CARD_ON I 54 - 3.3 PCI/Card Select (1:Cardbus, 0:PCI bus) CIS_ON I 45 - 3.3 CIS Register ON CARD_ON CIS_ON CIS PME 0 1 off PME 0 0 on CSTSCHG 1 X on CSTSCHG Data Sheet S14265EJ2V0DS00 9 µPD72862 1.3 PHY/Link Interface Signals: (15 pins) Name D0-D7 I/O I/O Pin No. 59-62, IOL Volts(V) Function 9mA 3.3 PHY/Link Bi-directional Data (ISO-barrier supported) 64-67 CTL0,CTL1 I/O 69, 70 9mA 3.3 PHY/Link Bi-directional Control (ISO-barrier supported) LREQ O 73 9mA 3.3 PHY/Link Request (ISO-barrier supported) LINKON I 77 - 3.3 Link-On Request (ISO-barrier supported) LPS O 74 9mA 3.3 Link Power Status (ISO-barrier supported) SCLK I 72 - 3.3 PHY Clock 49.152 MHz (ISO-barrier supported) DIRECT I 68 - 3.3 Auxiliary PHY/Link Signal is used to determine whether the interconnection between Link and PHY has isolation (‘low’: ISObarrier; ‘high’: no ISO-barrier). 1.4 Serial ROM Interface Signals: (3 pins) Name I/O GROM_SDA I/O GROM_SCL GROM_EN Pin No. IOL Volts(V) Function 55 6mA 3.3 Serial EEPROM Data Input / Output O 56 6mA 3.3 Serial EEPROM Clock Output I 57 - 3.3 Serial EEPROM Enable (‘high’: GUID Load enabled; ‘low’: GUID Load disabled) 1.5 Miscellaneous Signal: (1 pin) Name I/O PIN_EN I Pin No. 43 IOL Volts(V) - 5/3.3 IOL Volts(V) Function Pin Enable Input (High clamped) 1.6 IC: (3 pins) Name I/O Pin No. Function IC(H) I 44 - 3.3 Internally Connected (High clamped) IC(L) I 46, 47 - 3.3 Internally Connected (Low clamped) IOL Volts(V) - - 1.7 NC: (5 pins) Name NC I/O - Pin No. 48, 49, Function Non- Connection (Open) Leave them unconnected. 52, 53, 58 1.8 VDD: (8 pins) VDD (5 V PCI or 3.3 V PCI) for PCI I/Os: 11, 37, 92 VDD 3 V for digital core & PHY/Link I/Os: 1, 25, 51, 75, 97 1.9 VSS: (11 pins) VSS : 6, 19, 26, 31, 38, 50, 63, 71, 76, 85, 100 10 Data Sheet S14265EJ2V0DS00 µPD72862 2. REGISTER DESCRIPTIONS 2.1 PCI Bus Mode Configuration Register ( CARD_ON=Low ) 31 24 23 16 15 08 07 00 DeviceID VendorID 00H Status Command 04H Class Code BIST Header Type Latency Timer Revision ID 08H Cache Line Size 0CH Base Address 0 (OHCI Registers) 10H Base Address 1 14H Base Address 2 18H Base Address 3 1CH Base Address 4 20H Base Address 5 24H CardBus CIS Pointer 28H Subsystem ID Subsystem Vendor ID 30H Expansion Rom Base Address Register 000000H Cap_Ptr Min_Gnt Interrupt Pin Interrupt Line 3CH PCI_OHCI_Control 40H 00000000H 44H 00000000H 48H 00000000H 4CH Diagnostic register0 50H Diagnostic register1 54H Diagnostic register2 58H Diagnostic register3 5CH Power Management Capabilities Data 34H 38H 00000000H Max_Lat 2CH Next_Item_Ptr PMCSR_BSE Cap_ID Power Management Control/Status 60H 64H 00000000H 68H 00000000H 6CH User Area (GENERAL_RegisterA) 70H User Area (GENERAL_RegisterB) 74H User Area (GENERAL_RegisterC) 78H User Area (GENERAL_RegisterD) 7CH 00000000H 80H FCH Data Sheet S14265EJ2V0DS00 11 µPD72862 2.1.1 Offset_00 VendorID Register This register identifies the manufacturer of the µPD72862. The ID is assigned by the PCI_SIG committee. Bits 15-0 R/W R 2.1.2 Offset_02 Description Constant value of 1033H. DeviceID Register This register identifies the type of the device for the µPD72862. The ID is assigned by NEC Corporation. Bits 15-0 R/W R 2.1.3 Offset_04 Description Constant value of 0063H. Command Register The register provides control over the device’s ability to generate and respond to PCI cycles. Bits R/W Description 0 R I/O enable Constant value of 0. The µPD72862 does not respond to PCI I/O accesses. 1 R/W Memory enable Default value of 1. It defines if the µPD72862 responds to PCI memory accesses. This bit should be set to one upon power-up reset. 0: The µPD72862 does not respond to PCI memory cycles 1: The µPD72862 responds to PCI memory cycles 2 R/W Master enable Default value of 1. It enables the µPD72862 as bus-master on the PCI-bus. 0: The µPD72862 cannot generate PCI accesses by being a bus-master 1: The µPD72862 is capable of acting as a bus-master 3 R 4 R/W Special cycle monitor enable Constant value of 0. The special cycle monitor is always disabled. Memory write and invalidate enable Default value of 0. It enables Memory Write and Invalid Command generation. 0: Memory write must be used 1: The µPD72862, when acts as PCI master, can generate the command 5 R VGA color palette invalidate enable Constant value of 0. VGA color palette invalidate is always disabled. 6 R/W Parity error response Default value of 0. It defines if the µPD72862 responds to PERR. 0: Ignore parity error 1: Respond to parity error 7 R 8 R/W Stepping enable Constant value of 0. Stepping is always disabled. System error enable Default value of 0. It defines if the µPD72862 responds to SERR. 0: Disable system error checking 1: Enable system error checking 9 R Fast back-to-back enable Constant value of 0. Fast back-to-back transactions are only allowed to the same agent. 15-10 12 R Reserved Constant value of 000000. Data Sheet S14265EJ2V0DS00 µPD72862 2.1.4 Offset_06 Status Register This register tracks the status information of PCI-bus related events which are relevant to the µPD72862. “Read” and “Write” are handled somewhat differently. Bits R/W Description 3-0 R Reserved Constant value of 0000. 4 R New capabilities 6,5 R Reserved Constant value of 00. 7 R Fast back-to-back capable Constant value of 1. It indicates that the µPD72862, as a target, Constant value of 1. It indicates the existence of the Capabilities List. cannot accept fast back-to-back transactions when the transactions are not to the same agent. 8 R/W Signaled parity error Default value of 0. It indicates the occurrence of any “Data Parity”. 0: No parity detected (default) 1: Parity detected 10,9 R DEVSEL timing Constant value of 01. These bits define the decode timing for DEVSEL. 0: Fast (1 cycles) 1: Medium (2 cycles) 2: Slow (3 cycles) 3: undefined 11 R/W Signaled target abort Default value of 0. This bit is set by a target device whenever it terminates a transaction with “Target Abort”. 0: The µPD72862 did not terminate a transaction with Target Abort 1: The µPD72862 has terminated a transaction with Target Abort 12 R/W Received target abort Default value of 0. This bit is set by a master device whenever its transaction is terminated with a “Target Abort”. 0: The µPD72862 has not received a Target Abort 1: The µPD72862 has received a Target Abort from a bus-master 13 R/W Received master abort Default value of 0. This bit is set by a master device whenever its transaction is terminated with “Master Abort”. The µPD72862 asserts “Master Abort” when a transaction response exceeds the time allocated in the latency timer field. 0: Transaction was not terminated with a Master Abort 1: Transaction has been terminated with a Master Abort 14 R/W Signaled system error Default value of 0. It indicates that the assertion of SERR by the µPD72862. 0: System error was not signaled 1: System error was signaled 15 R/W Received parity error Default value of 0. It indicates the occurrence of any PERR. 0: No parity error was detected 1: Parity error was detected Data Sheet S14265EJ2V0DS00 13 µPD72862 2.1.5 Offset_08 Revision ID Register This register specifies a revision number assigned by NEC Corporation for the µPD72862. Bits R/W 7-0 R Description Default value of 02H. It specifies the silicon revision. It will be incremented for subsequent silicon revisions. 2.1.6 Offset_09 Class Code Register This register identifies the class code, sub-class code, and programming interface of the µPD72862. Bits R/W Description 7-0 R Constant value of 10H. It specifies an IEEE1394 OpenHCI-compliant Host Controller. 15-8 R Constant value of 00H. It specifies an “IEEE1394” type. 23-16 R Constant value of 0CH. It specifies a “Serial Bus Controller”. 2.1.7 Offset_0C Cache Line Size Register This register specifies the system cache line size, which is PC-host system dependent, in units of 32-bit words. The following cache line sizes are supported: 2, 4, 8, 16, 32, 64, and 128. All other values will be recognized as 0, i.e. cache disabled. Bits 7-0 R/W R/W 2.1.8 Offset_0D Description Default value of 00H. Latency Timer Register This register defines the maximum amount of time that the µPD72862 is permitted to retain ownership of the bus after it has acquired bus ownership and initiated a subsequent transaction. Bits 7-0 R/W R/W Description Default value of 00H. It specifies the number of PCI-bus clocks that the µPD72862 may hold the PCI bus as a bus-master. 2.1.9 Offset_0E Bits 7-0 Header Type Register R/W R Description Constant value of 00H. It specifies a single function device. 2.1.10 Offset_0F BIST Register Bits 7-0 14 R/W R Description Constant value of 00H. It specifies whether the device is capable of Built-in Self Test. Data Sheet S14265EJ2V0DS00 µPD72862 2.1.11 Offset_10 Base Address 0 Register This register specifies the base memory address for accessing all the “Operation registers” (i.e. control, configuration, and status registers) of the µPD72862, while the BIOS is expected to set this value during power-up reset. Bits R/W 11-0 R 31-12 R/W 2.1.12 Offset_2C Description Constant value of 000H. These bits are “read-only”. - Subsystem Vendor ID Register This register identifies the subsystem that contains the NEC’s µPD72862 function. While the ID is assigned by the PCI_SIG committee, the value should be loaded into the register from the external serial EEPROM after power-up reset. Access to this register through PCI-bus is prohibited. Bits 15-0 R/W R 2.1.13 Offset_2E Description Default value of 1033H. Subsystem ID Register This register identifies the type of the subsystem that contains the NEC’s µPD72862 function. While the ID is assigned by the manufacturer, the value should be loaded into the register from the external serial EEPROM after power-up reset. Access to this register through PCI-bus is prohibited. Bits 15-0 R/W R 2.1.14 Offset_30 Description Default value of 0063H. Expansion Rom Base Address Register This register is not supported by the current implementation of the µPD72862. Bits 31-0 R/W R 2.1.15 Offset_34 Description Reserved Constant value of 0. Cap_Ptr Register This register points to a linked list of additional capabilities specific to the µPD72862, the NEC’s implementation of the 1394 OpenHCI specification. Bits 7-0 R/W Description R Constant value of 60H. The value represents an offset into the µPD72862’s PCI Configuration Space for the location of the first item in the New Capabilities Linked List. Data Sheet S14265EJ2V0DS00 15 µPD72862 2.1.16 Offset_3C Interrupt Line Register This register provides the interrupt line routing information specific to the µPD72862, the NEC’s implementation of the 1394 OpenHCI specification. Bits 7-0 R/W R/W Description Default value of 00H. It specifies which input of the host system interrupt controller the interrupt pin of the µPD72862 is connected to. 2.1.17 Offset_3D Interrupt Pin Register This register provides the interrupt line routing information specific to the µPD72862, the NEC’s implementation of the 1394 OpenHCI specification. Bits 7-0 R/W R 2.1.18 Offset_3E Description Constant value of 01H. It specifies PCI INTA is used for interrupting the host system. Min_Grant Register This register specifies how long of a burst period the µPD72862 needs, assuming a clock rate of 33MHz. Resolution is in units of ¼ µs. The value should be loaded into the register from the external serial EEPROM upon power-up reset, and access to this register through PCI-bus is prohibited. Bits 7-0 R/W R 2.1.19 Offset_3F Description Default value of 00H. Its value contributes to the desired setting for Latency Timer value. Max Lat Register This register specifies how often the µPD72862 needs to gain access to the PCI-bus, assuming a clock rate of 33MHz. Resolution is in units of ¼ µs. The value should be loaded into the register from the external serial EEPROM after hardware reset, and access to this register through PCI-bus is prohibited. Bits 7-0 R/W R 2.1.20 Offset_40 Description Default value of 00H. Its value contributes to the desired setting for Latency Timer value. PCI_OHCI_Control Register This register specifies the control bits that are IEEE1394 OpenHCI specific. Vendor options are not allowed in this register. It is reserved for OpenHCI use only. Bits 0 R/W Description R/W PCI global SWAP Default value of 0. When this bit is 1, all quadrates read from and written to the PCI Interface are byte swapped, thus a “PCI Global Swap”. PCI addresses for expansion ROM and PCI Configuration registers, are, however, unaffected by this bit. This bit is not required for motherboard implementations. 31-1 16 R Reserved Constant value of all 0. Data Sheet S14265EJ2V0DS00 µPD72862 2.1.21 Offset_60 Cap_ID & Next_Item_Ptr Register The Cap_ID signals that this item in the Linked List is the registers defined for PCI Power Management, while the Next_Item_Ptr describes the location of the next item in the µPD72862’s Capability List. Bits 7-0 R/W Description R Cap_ID Constant value of 01H. The default value identified the Link List item as being the PCI Power Management registers, while the ID value is assigned by the PCI SIG. 15-8 R Next_Item_Ptr Constant value of 00H. It indicated that there are no more items in the Link List. 2.1.22 Offset_62 Power Management Capabilities Register This is a 16-bit read-only register that provides information on the power management capabilities of the µPD72862. Bits 2-0 R/W Description R version Constant value of 001. The power management registers are implemented as defined in revision 1.0 of PCI Bus Power Management Interface Specification. 3 R PME clock Constant value of 0. 4 R Auxiliary power source Constant value of 0. The alternative power source is not supported. 5 R DIS Constant value of 0. 8,6 R Reserved Constant value of 000. 9 R D1_support Constant value of 0. The µPD72862 does not support the D1 Power Management state. 10 R D2_support Constant value of 1. The µPD72862 supports the D2 Power Management state. 15-11 R PME_support Constant value of 01100. 2.1.23 Offset_64 Power Management Control/Status Register This is a 16-bit read-only register that provides control status information of the µPD72862. Bits 1,0 R/W Description R/W PowerState Default value is undefined. This field is used both to determine the current power state of the µPD72862 and to set the µPD72862 into a new power state. As D1 is not supported in the current implementation of the µPD72862, writing of ‘01’ will be ignored. 00: D0 (DMA contexts: ON, Link Layer: ON) 01: Reserved (D1 state not supported) 10: D2 (DMA contexts: OFF, Link Layer: OFF, LPS: OFF, PME will be asserted upon LinkON being active) 11: D3 (DMA contexts: OFF, Link Layer: OFF, LPS: OFF, PME will be asserted upon LinkON being active, Power can be removed) 7-2 8 R R/W Reserved Constant value of 000000. PME_En Default value of 0. This field is used to enable the specific power management features of the µPD72862. 12-9 R Data_Select Constant value of 0000. 14,13 R Data_Scale Constant value of 00. 15 R/W PME_Status Default value is undefined. A write of ‘1’ clears this bit, while a write of ‘0’ is ignored. Data Sheet S14265EJ2V0DS00 17 µPD72862 2.2 CardBus Mode Configuration Register ( CARD_ON=High ) 31 24 23 16 15 08 07 00 DeviceID VendorID 00H Status Command 04H Class Code BIST Header Type Latency Timer Revision ID 08H Cache Line Size 0CH Base Address 0 (OHCI Registers) 10H Base Address 1 (CardBus Status Reg) Note 14H Base Address 2 (CardBus Status Reg) 18H Note Base Address 3 1CH Base Address 4 20H Base Address 5 24H CardBus CIS Pointer Note 28H Subsystem ID Subsystem Vendor ID 30H Expansion Rom Base Address Register 000000H Cap_Ptr Min_Gnt Interrupt Pin 3CH 40H 00000000H 44H 00000000H 48H 00000000H 4CH Diagnostic register0 50H Diagnostic register1 54H Diagnostic register2 58H Diagnostic register3 5CH Next_Item_Ptr PMCSR_BSE Cap_ID Power Management Control/Status 60H 64H 00000000H 68H 00000000H 6CH User Area (GENERAL_RegisterA) 70H User Area (GENERAL_RegisterB) 74H User Area (GENERAL_RegisterC) 78H User Area (GENERAL_RegisterD) 7CH CIS Area Note 80H FCH Note Different from PCI Bus Mode Configuration Register. 18 Interrupt Line PCI_OHCI_Control Power Management Capabilities Data 34H 38H 00000000H Max_Lat 2CH Data Sheet S14265EJ2V0DS00 µPD72862 2.2.1 Offset_14/18 Bits Base_Address_1/2 Register (CardBus Status Registers) R/W 7-0 R 31-8 R/W Description Constant value of 00. - (1) Function Event Register (FER) ( Base Address 1 ( 2 )+ 0H ) Bits 0 R/W R Description Write Protect (No Use). Read only as ‘0’ 1 R 2 R Ready Status (No Use). Read only as ‘0’ Battery Voltage Detect 2 (No Use). Read only as ‘0’ 3 R Battery Voltage Detect 1 (No Use). Read only as ‘0’ 4 R/W 14-5 R 15 R/W 31-16 R General Wakeup Reserved. Read only as ‘0’ Interrupt Reserved. Read only as ‘0’ (2) Function Event Mask Register (FEMR) ( Base Address 1 ( 2 )+ 4H ) Bits 0 R/W R Description Write Protect (No Use). Read only as ‘0’ 1 R Ready Status (No Use). Read only as ‘0’ 2 R Battery Voltage Detect 2 (No Use). Read only as ‘0’ 3 R Battery Voltage Detect 1 (No Use). 4 R/W General Wakeup Mask 5 R BAM. Read only as ‘0’ 6 R PWM. Read only as ‘0’ 13-7 R Reserved. Read only as ‘0’ Read only as ‘0’ 14 R/W Wakeup Mask 15 R/W Interrupt 31-16 R Reserved. Read only as ‘0’ Data Sheet S14265EJ2V0DS00 19 µPD72862 (3) Function Reset Status Register (FRSR) ( Base Address 1 ( 2 )+ 8H ) Bits R/W 0 R 1 R Description Write Protect (No Use). Read only as ‘0’ Ready Status (No Use). Read only as ‘0’ 2 R Battery Voltage Detect 2 (No Use). Read only as ‘0’ 3 R Battery Voltage Detect 1 (No Use). Read only as ‘0’ 4 R/W 14-5 R 15 R/W 31-16 R General Wakeup Mask Reserved. Read only as ‘0’ Interrupt Reserved. Read only as ‘0’ (4) Function Force Event Register (FFER) ( Base Address 1 ( 2 )+ CH ) Bits R/W 0 R 1 R 2 R Description Write Protect (No Use). Read only as ‘0’ Ready Status (No Use). Read only as ‘0’ Battery Voltage Detect 2 (No Use). Read only as ‘0’ 3 R Battery Voltage Detect 1 (No Use). Read only as ‘0’ 4 R/W 14-5 15 - No Use R/W Interrupt 31-16 R 2.2.2 Offset_28 General Wakeup Mask Reserved. Read only as ‘0’ Cardbus CIS Pointer This register specifies start memory address of the Cardbus CIS Area. Bits R/W 31-0 R Description Starting Pointer of CIS Area. Constant value of 00000080H. 2.2.3 Offset_80 CIS Area The µPD72862 supports external Serial ROM(AT24C02 compatible) interface. CIS Area Register can be loaded from external Serial ROM in the CIS area when CARD_ON are HIGH. 20 CARD_ON CIS_ON Bus CIS FUNCTION 0 1 PCI OFF PME 0 0 PCI ON CSTSCHG 1 X Cardbus ON CSTSCHG Data Sheet S14265EJ2V0DS00 µPD72862 3. SERIAL ROM INTERFACE The µPD72862 provides a serial ROM interface to initialize the 1394 Global Unique ID Register and the PCI/Cardbus Mode Configuration registers from a serial EEPROM. 3.1 Serial EEPROM Register Register Address Register Name R/W Base address + 0x930 SUBID register R/W Base address + 0x934 LATVAL register R/W Base address + 0x938 W_GUIDHi register R/W Base address + 0x93C W_GUIDLo register R/W Base address + 0x940 Parameters Write register R/W Base address + 0x95C W_GENERAL register R/W Base address + 0x960 W_PHYS register R/W Base address + 0x984 W_CIS register R/W Remark Base address : Base Address 0 in Configuration register 3.2 Serial EEPROM Register Description (1) SUBID register (Base address + 0x930) 31 16 15 0 W_SUBSYSID Field W_SUBSYSID W_SUBVNDID Bits R/W Default value 31-16 R/W 0063H Description Subsystem ID value. The value is loaded into Subsystem ID register in Configuration register (offset+2CH bit 31-16). W_SUBVNDID 15-0 R/W 1033H Subsystem Vendor ID value. The value is loaded into Subsystem Vendor ID register in Configuration register (Offset+2CH bit 15-0). (2) LATVAL register (Base address + 0x934) 31 24 23 W_MAXLAT Field W_MAXLAT 16 15 W_MINGNT Bits R/W Default value 31-24 R/W 00H 12 11 10 -0- 1 4 -0- 3 0 W_MAX_REC Description Max Latency value. The value is loaded into Max Latency register in Configuration register (Offset+3CH bit 31-24). W_MINGNT 23-16 R/W 00H Min Grant value. The value is loaded into Min Grant register in Configuration - 15-12 - - Reserved. Write 0 to these bits. 11 - - Reserved. Write 1 to this bit. Reserved. Write 0 to these bits. register (Offset+3CH bit 23-16). W_MAX_REC 10-4 - - 3-0 R/W 9H MAX__REC value. The value is loaded into the max_rec field of OHCI BusOption register in OHCI register (Offset+020H bit 15-12). Data Sheet S14265EJ2V0DS00 21 µPD72862 (3) W_GUIDHi register (Base address + 0x938) 31 0 W_GUIDHi Field Bits R/W Default value W_GUIDHi 31-0 R/W Undefined Description GlobalUniqueIDHi value. The value is loaded into OHCI GlobalUniqueIDHi register in OHCI register (Offset+024H bit 31-0). Please refer to the 1394 Open Host Controller Interface Specification/Release 1.0 [5.5.5]. (4) W_GUIDLo register (Base address + 0x93C) 31 0 W_GUIDLo Field Bits R/W Default value W_GUIDLo 31-0 R/W Undefined Description GlobalUniqueIDLo value. The value is loaded into GlobalUniqueIDLo register in OHCI register (Offset+028H bit 31-0). Please refer to the 1394 Open Host Controller Interface Specification/Release 1.0 [5.5.5]. (5) Parameters Write register (Base address + 0x940) 31 7 -0- Field Bits R/W Default value - 31-7 - - PAGE_S 6-4 R/W 000 6 4 PAGE_S 3 1 -0- 0 PAR _W Description Reserved. Write 0 to these bits. Write register select page. The bit field returns zero when read. 000: Select SUBID register and LATVAL register. 001: Select W_GUIDHi register and W_GUIDLo register. 010: Select W_GENERAL register (W_GENERAL_0 and W_GENERAL_1). 011: Select W_GENERAL register (W_GENERAL_2 and W_GENERAL_3). 100: Select W_PHYS register (W_ programPhyEnable, W_aPhyEnhanceEnable). 101: Select W_CIS register (W_CIS_EVEN - W_CIS_ODD). PAR_W 3-1 - - Reserved. Write 0 to these bits. 0 R/W 0 Write control signal. The bit field returns zeros when read. 1: Write the value of select page defined PAGE_S. One write transaction is the units of 8 byte. 0: Ignored. 22 Data Sheet S14265EJ2V0DS00 µPD72862 (6) W_GENERAL register (Base address + 0x950 - 0x95C) 31 0 W_GENERAL_0 (Base address + 0x950) - W_GENERAL_3 (Base address + 0x95C) Field Bits R/W Default value W_GENERAL_0 - 31-0 R/W Undefined W_GENERAL_3 Description User define value. The value is loaded into GENERAL_registerA - D in Configuration register (Offset+70H - 7BH). (7) W_PHYS register (Base address + 0x960) 31 10 9 8 7 -0- 3 2 -0- 0 -1- W_aPhyEnhanceEnable W_programPhyEnable Field W_programPhyEnable Bits R/W Default value 31-10 - - 9 R/W 1 Description Reserved. Write 0 to these bits. programPhyEnable bit. The bit is loaded into HCControl registers in OHCI register ((Offset+50H bit 23) and (54H bit 23)). Please refer to the 1394 Open Host Controller Interface Specification/Release 1.0 [5.7]. 1: P1394a enhancement is supported. 0. P1394a enhancement is not supported. W_aPhyEnhanceEnable 8 R/W 0 aPhyEnhanceEnable bit. The bit is loaded into HCControl registers in OHCI register ((Offset+50H bit 23) and (54H bit 23)). - 7-3 - - Reserved. Write 0 to these bits. 2-0 - - Reserved. Write 1 to these bits. (8) W_CIS register (Base address + 0x980 - 0x984) 31 0 W_CIS_EVEN (Base address + 0x980) - W_CIS_ODD (Base address + 0x984) Field W_CIS_EVEN W_CIS_ODD Bits R/W Default value 31-0 R/W Undefined Description CIS Area value. The value is loaded into CIS Area in Configuration register (Offset+80H - FCH). Data Sheet S14265EJ2V0DS00 23 µPD72862 Table 3-1. Serial EEPROM Memory Map Byte address Bit 7 6 5 4 3 0 W_SUBSYSID(31 : 24) 1 W_SUBSYSID(23 : 16) 2 W_SUBVNDID(15 : 8) 3 W_SUBVNDID( 7 : 0) 4 W_MAXLAT(31 : 24) 5 W_MINGNT(23 : 16) 6 0 0 0 7 0 0 0 0 1 0 W_GUIDHi(31 : 24) 9 W_GUIDHi(23 : 16) A W_GUIDHi(15 : 8) B W_GUIDHi( 7 : 0) C W_GUIDLo(31 : 24) D W_GUIDLo(23 : 16) E W_GUIDLo(15 : 8) F W_GUIDLo( 7 : 0) 10 W_GENERAL_0(31 : 24) 11 W_GENERAL_0(23 : 16) 12 W_GENERAL_0(15 : 8) 13 W_GENERAL_0( 7 : 0) : : : : 1C W_GENERAL_3(31 : 24) 1D W_GENERAL_3(23 : 16) 1E W_GENERAL_3(15 : 8) 0 0 0 0 W_GENERAL_3( 7 : 0) 20 0 0 0 0 0 0 21 0 0 0 0 0 0 0 0 22 0 0 0 0 0 0 WPE WPEE 23 0 0 0 0 0 1 1 1 : : : : 28 W_CIS_0(31 : 24) 29 W_CIS_0(23 : 16) 2A W_CIS_0(15 : 8) 2B W_CIS_0( 7 : 0) : : : : A4 W_CIS_31(31 : 24) A5 W_CIS_31(23 : 16) A6 W_CIS_31(15 : 8) A7 W_CIS_31( 7 : 0) WPE: W_programPhyEnable, WPEE: W_aPhyEnhanceEnable 24 1 W_MAX_REC( 3 : 0) 8 1F 2 Data Sheet S14265EJ2V0DS00 0 0 µPD72862 3.3 Load Control GROM_EN CARD_ON CIS_ON Description 0 X X No loading. 1 0 1 W_SUBSYSID, W_SUBVNDID, W_MAXLAT, W_MINGNT, W_MAX_REC, W_GUIDHi/Lo, W_GENERAL_0 - W_GENERAL_3, W_programPhyEnable, W_aPhyEnhanceEnable are loaded. 1 0 0 All parameters (W_SUBSYSID, W_SUBVNDID, W_MAXLAT, W_MINGNT, W_MAX_REC, 1 1 X W_GUIDHi/Lo, W_GENERAL_0 - W_GENERAL_3, W_programPhyEnable, W_aPhyEnhanceEnable, W_CIS_EVEN - W_CIS_ODD) are loaded. 3.4 Programming Sequence Example The example of programming sequence to the serial EEPROM is shown below. (1) Write SUBID register. Note1 (2) Write LATVAL register. Note1 (3) Write PAGE_S = 000 and PAR_W = 1 on Parameters Write register. Note1 (4) Wait over 13 ms for serial EEPROM access time. Note1 (5) Write W_GUIDHi register. Note2 (6) Write W_GUIDLo register. Note2 (7) Write PAGE_S = 001 and PAR_W = 1 on Parameters Write register. Note2 (8) Wait over 13 ms for serial EEPROM access time. Note2 (9) Write W_GENERAL register (W_GENERAL_0, W_GENERAL_1). Note3 (10) Write PAGE_S = 010 and PAR_W = 1 on Parameters Write register. Note3 (11) Wait over 13 ms for serial EEPROM access time. Note3 (12) Write W_GENERAL register (W_GENERAL_2, W_GENERAL_3). Note4 (13) Write PAGE_S = 011 and PAR_W = 1 on Parameters Write register. Note4 (14) Wait over 13 ms for serial EEPROM access time. Note4 (15) Write W_PHYS register (W_programPhyEnable, W_aPhyEnhanceEnable). Note5 (16) Write PAGE_S = 100 and PAR_W = 1 on Parameters Write register. Note5 (17) Wait over 13 ms for serial EEPROM access time. Note5 (18) Write W_CIS register (W_CIS_EVEN, W_CIS_ODD). Note6 (19) Write PAGE_S = 101 and PAR_W = 1 on Parameters Write register. Note6 (20) Wait over 13 ms for serial EEPROM access time. Note6 (21) Repeat (18)-(20) 15 times. (22) Complete to write parameters into Serial EEPROM. (23) Parameters are loaded from serial EEPROM after PCI reset. Notes 1. If none of W_SUBSYSID, W_SUBVNDID, W_MAXLAT, W_MINGNT, W_MAX_REC in serial EEPROM are changed, (1)-(4) transactions don’t need. 2. If none of W_GUIDHi, W_GUIDLo in serial EEPROM are changed, (5)-(8) transactions don't need. 3. If none of W_GENERAL_0, W_GENERAL_1 in serial EEPROM are changed, (9)-(11) transactions don't need. 4. If none of W_GENERAL_2, W_GENERAL_3 in serial EEPROM are changed, (12)-(14) transactions don't need. Data Sheet S14265EJ2V0DS00 25 µPD72862 Notes 5. If none of W_programPhyEnable, W_aPhyEnhanceEnable in serial EEPROM are changed, (15)-(17) transactions don't need. 6. If none of W_CIS_0 - W_CIS_31 in serial EEPROM are changed, (18)-(21) transactions don't need. 26 Data Sheet S14265EJ2V0DS00 µPD72862 4. ELECTRICAL SPECIFICATIONS Absolute Maximum Ratings Parameter Power supply voltage Symbol Condition VDD Input voltage VI Rating Unit –0.5 to +4.6 V LVTTL @ (VI < 0.5 V + VDD) –0.5 to +4.6 V PCI @ (VI < 3.0 V + VDD) –0.5 to +6.6 V LVTTL @ (VO < 0.5 V + VDD) –0.5 to +4.6 V PCI @ (VO < 3.0 V + VDD) Output voltage VO –0.5 to +6.6 V Operating ambient temperature TA 0 to +70 °C Storage temperature Tstg –65 to +150 °C Caution Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. That is, the absolute maximum ratings are rated values at which the product is on the verge of suffering physical damage, and therefore the product must be used under conditions that ensure that the absolute maximum ratings are not exceeded. Recommended Operating Ranges Parameter Power supply voltage Operating ambient temperature Symbol Condition Rating Unit VDD Used to clamp reflection on PCI bus. 4.5 to 5.5 V 3.0 to 3.6 V 0 to +70 °C TA Data Sheet S14265EJ2V0DS00 27 µPD72862 DC Characteristics (VDD = 3.3 V ± 0.3 V, VSS = 0 V, TA= 0°°C to +70°°C) Parameter Symbol High-level input voltage Condition MIN. VIH Low-level input voltage VIL High-level output current IOH VOH Pin No.48,49,52,53,58 =2.4 V Pin No.55,56 Pin No.74 Low-level output current IOL VOL Pin No.48,49,52,53,58 =0.4 V Pin No.55,56 Pin No.74 ★ Input leakage current IL ★ Supply current IDD TYP. MAX. Unit 2.0 VDD+0.5 V –0.5 +0.8 V –3 mA –6 mA –9 mA 3 mA 6 mA 9 mA ±10.0 VIN = VDD or GND 145 VDD = 3.3 V µA mA D0 (Power State: 00) LPS = H PCI interface ★ High-level input voltage VIH 2.0 5.5 V Low-level input voltage VIL –0.5 +0.8 V High-level output current IOH VOH = 2.4 V –2 mA Low-level output current IOL VOL = 0.4 V 9 mA Input leakage current IL VIN = VDD or GND ±10.0 µA PHY/Link interface Positive trigger voltage VP 1.7 3.1 V Negative trigger voltage VN 0.2 1.6 V High-level output current IOH VOH = 2.4 V –9 mA Low-level output current IOL VOL = 0.4 V 9 mA Remarks 1. Digital core runs at 3.3 V. 2. PCI Interface can run at 5 or 3.3 V, depending on the choice of 5 V-PCI or 3.3 V-PCI. 3. All other I/Os are 3.3 V driving, and 5 V tolerant. 4. 5 V are used only for 5 V-PCI clamping diode. 3.3 V 5.0 V Protection Circuit 28 Data Sheet S14265EJ2V0DS00 I/O Buffer µPD72862 AC Characteristics PCI Interface See PCI local bus specification Revision 2.1. PHY/Link Interface Parameter Symbol Condition MIN. TYP. MAX. Unit D,CTL setup time to SCLK rise tDCSKS 6 ns D,CTL hold time to SCLK rise tDCSKH 0 ns SCLK rise to D,CTL,LREQ out tD SCLK cycle time CL = 10 pF tSCLK 1 10 20.345 ns ns PHY/Link Interface Timing tSCLK SCLK tD tD tD tD tD tD CTL0,CTL1 D0-D7 tDCSKS tDCSKH tDCSKS tDCSKH CTL0,CTL1 D0-D7 Serial ROM Interface See AT24C01A/02/04/08/16 Spec. Sheet. Data Sheet S14265EJ2V0DS00 29 µPD72862 5. APPLICATION CIRCUIT EXAMPLE 0.1 µF 0.1 µF 83 76 84 GNT 77 85 REQ VSS 86 VSS 78 87 AD31 LINKON 88 AD30 79 89 AD29 80 90 AD28 PME CLKRUN 91 AD27 81 92 AD26 INTA 93 PCI V DD 82 94 AD25 PRST 95 97 AD24 98 3.3V V DD IDSEL 96 99 AD23 CBE3 100 VSS AD22 0.1 µF PCLK 0.1 µF V power 3.3 V 1 3.3V V D D 3.3V V D D 75 2 AD21 LPS 74 3 AD20 LREQ 73 4 AD19 SCLK 72 5 AD18 6 V SS 7 8 AD17 9 V SS 71 CTL0 70 69 AD16 CTL1 DIRECT CBE2 D0 67 D1 66 D2 65 D3 64 V SS 63 14 D E V S E L 15 S T O P D4 62 D5 61 16 P E R R 17 S E R R D6 60 D7 59 18 P A R 19 V S S NC 58 GROM_EN 57 GROM_SCL 56 GROM_SDA 55 CARD_ON 54 NC 53 NC 52 3.3V V D D 51 10 F R A M E 11 PCI V D D 20 C B E 1 21 A D 1 5 0.1 µF 22 A D 1 4 23 A D 1 3 47 IC(L) 48 NC 49 NC 45 CIS_ON 46 IC(L) 44 IC(H) 42 AD0 43 PIN_EN 40 AD2 41 AD1 38 VSS 39 AD3 36 AD4 37 PCI V DD 34 AD6 35 AD5 32 CBE0 33 AD7 30 AD8 31 VSS 28 AD10 29 AD9 26 VSS 27 AD11 24 A D 1 2 25 3.3V V D D 50 VSS 12 IRDY 13 T R D Y 0.1 µF 68 0.1 µF 0.1 µF 0.1 µF 33 µF V p o w e r 5 V /(3.3 V) 0.1 µF 33 µF 30 Data Sheet S14265EJ2V0DS00 µPD72862 6. PACKAGE DRAWING 100-PIN PLASTIC TQFP (FINE PITCH) (14x14) A B 51 50 75 76 detail of lead end S C D Q 100 1 R 26 25 F G J H I M K P N S L M NOTE ITEM Each lead centerline is located within 0.10 mm of its true position (T.P.) at maximum material condition. MILLIMETERS A 16.0±0.2 B 14.0±0.2 C 14.0±0.2 D 16.0±0.2 F 1.0 G 1.0 H 0.22 +0.05 −0.04 I J 0.10 0.5 (T.P.) K 1.0±0.2 L 0.5±0.2 M 0.145+0.055 −0.045 N 0.10 P 1.0±0.1 Q 0.1±0.05 R 3° +7° −3° S 1.27 MAX. S100GC-50-9EU-2 Data Sheet S14265EJ2V0DS00 31 µPD72862 ★ 7. RECOMMENDED SOLDERING CONDITIONS The µPD72850A should be soldered and mounted under the following recommended conditions. For the details of the recommended soldering conditions, refer to the document Semiconductor Device Mounting Technology Manual (C10535E). For soldering methods and conditions other than those recommended below, contact your NEC sales representative. Table 7-1. Surface Mounting Type Soldering Conditions µPD72862GC-9EU : 100-pin plastic TQFP (Fine pitch) (14 x 14) Soldering Soldering Conditions Method Infrared reflow Recommended Condition Symbol Package peak temperature: 235°C, Time: 30 sec. Max. (at 210°C or higher). IR35-103-3 Count: three times or less Exposure limit: 3 daysNote (after that prebake at 125°C for 10 hours) VPS Package peak temperature: 215°C, Time: 40 sec. Max. (at 200°C or higher). VP15-103-3 Count: three times or less Exposure limit: 3 daysNote (after that prebake at 125°C for 10 hours) Partial heating Pin temperature: 300°C Max., Time: 3 sec. Max. (per pin row) — Note After opening the dry pack, store it at 25°C or less and 65% RH or less for the allowable storage period. Caution Do not use different soldering methods together (except for partial heating). 32 Data Sheet S14265EJ2V0DS00 µPD72862 [MEMO] Data Sheet S14265EJ2V0DS00 33 µPD72862 [MEMO] 34 Data Sheet S14265EJ2V0DS00 µPD72862 NOTES FOR CMOS DEVICES 1 PRECAUTION AGAINST ESD FOR SEMICONDUCTORS Note: Strong electric field, when exposed to a MOS device, can cause destruction of the gate oxide and ultimately degrade the device operation. Steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it once, when it has occurred. Environmental control must be adequate. When it is dry, humidifier should be used. It is recommended to avoid using insulators that easily build static electricity. Semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. All test and measurement tools including work bench and floor should be grounded. The operator should be grounded using wrist strap. Semiconductor devices must not be touched with bare hands. Similar precautions need to be taken for PW boards with semiconductor devices on it. 2 HANDLING OF UNUSED INPUT PINS FOR CMOS Note: No connection for CMOS device inputs can be cause of malfunction. If no connection is provided to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence causing malfunction. CMOS devices behave differently than Bipolar or NMOS devices. Input levels of CMOS devices must be fixed high or low by using a pull-up or pull-down circuitry. Each unused pin should be connected to V DD or GND with a resistor, if it is considered to have a possibility of being an output pin. All handling related to the unused pins must be judged device by device and related specifications governing the devices. 3 STATUS BEFORE INITIALIZATION OF MOS DEVICES Note: Power-on does not necessarily define initial status of MOS device. Production process of MOS does not define the initial operation status of the device. Immediately after the power source is turned ON, the devices with reset function have not yet been initialized. Hence, power-on does not guarantee out-pin levels, I/O settings or contents of registers. Device is not initialized until the reset signal is received. Reset operation must be executed immediately after power-on for devices having reset function. Data Sheet S14265EJ2V0DS00 35 µ PD72862 EEPROM and Firewarden are trademarks of NEC Corporation. The export of this product from Japan is prohibited without governmental license. To export or re-export this product from a country other than Japan may also be prohibited without a license from that country. Please call an NEC sales representative. • The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version. • No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in this document. • NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Corporation or others. • Descriptions of circuits, software, and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. The incorporation of these circuits, software, and information in the design of the customer's equipment shall be done under the full responsibility of the customer. NEC Corporation assumes no responsibility for any losses incurred by the customer or third parties arising from the use of these circuits, software, and information. • While NEC Corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. • NEC devices are classified into the following three quality grades: "Standard", "Special", and "Specific". The Specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application. Standard: Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) Specific: Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets or Data Books. If customers intend to use NEC devices for applications other than those specified for Standard quality grade, they should contact an NEC sales representative in advance. M7 98. 8