ACPI CardBus Controller ACPI-PCI Power Management Interface Speci
|
|
|
Top Searches for this datasheet
OZ6933
ACPI CardBus Controller
ACPI-PCI Power Management Interface Specification Compliant Supports OnNow wakeup, OnNow Ring Indicate, CLKRUN#, PME#, CardBus CCLKRUN# Compliant with specification v2.2, 2000 Card Standard YentaPCI PCMCIA CardBus Bridge register compatible ExCA (Exchangeable Card Architecture) compatible registers mappable memory space Intel 82365SL PCIC Register Compatible Supports PCMCIA_ATA Specification Supports 5V/3.3V Cards 3.3V CardBus cards Supports Card CardBus slots with insertion removal Supports multiple FIFOs PCI/CardBus data transfer Supports Direct Memory Access PC/PCI PCI/Way Card socket Programmable interrupt protocol: PCI, PCI+ISA, PCI/Way, PC/PCI interrupt signaling modes Win'98 PC-98/99 compliant Supports parallel serial interface socket power control including devices from Micrel Zoomed Video Support; Zoomed Video Buffer Enable Pins D3cold state PME# wakeup support 3.3Vaux Power Support Integrated 98/99 -Subsystem Vendor support, with auto lock Activity Pins
CardBus while retaining 16-bit Card specification defined PCMCIA release 2.1. CardBus intended support "temporal" add-in functions Cards, such Memory cards, Network interfaces, FAX/Modems other wireless communication cards, etc. high performance capability CardBus interface will enable development many functions applications. OZ6933 CardBus controller compliant with latest ACPI-PCI Power Management Interface Specification. supports four power states PME# function maximum power savings ACPI compliance. Additional compliance OnNow Power Management includes D3cold state support, paving sleep state power consumption minimized resume times. allow host software reduce power consumption further, OZ6933 provides power-down mode which internal clock distribution Card socket clocks stopped. advanced CMOS process also used minimize system power consumption. OZ6933 dual PCMCIA socket supports 3.3V/5V 8/16-bit Card cards 32-bit CardBus cards. card support compatible with Intel 82365SL PCIC controller, card support fully compliant with 2000 Card Standard CardBus specification. OZ6933 stand alone device, which means that does require additional buffer chip Card socket interface. addition, OZ6933 supports dynamic Card insertion removal, with auto configuration capabilities. OZ6933 fully compliant with 33Mhz specification, v2.2. supports master device with internal CardBus direct data transfer. OZ6933 implements FIFO data buffer architecture between CardBus socket interface enhance data transfers CardBus devices. bi-directional FIFO buffer permits OZ6933 accept data from target (PCI CardBus interface) while simultaneously transferring data. This architecture only speeds data transfers also prevents system deadlocks. OZ6933 PCMCIA R2/CardBus controller, providing most advanced design flexibility Cards that interface with advanced notebook designs.
ORDERING INFORMATION
OZ6933T TQFP OZ6933B Mini-BGA
GENERAL DESCRIPTION
OZ6933 ACPI PC98/99 logo certified, high performance, dual slot Card controller with synchronous 32-bit master/target interface. This Card bridge host controller compliant with 2000 Card Standard. This standard incorporates 32-bit
07/20/00 Copyright 2000 O2Micro
OZ6933-SF-1.7 Rights Reserved
Page
OZ6933
FUNCTIONAL BLOCK DIAGRAM
Interface
Configuration/ Function Control Registers Function Control Configuration/ Registers
Arbite Arbiter
ACPI/ OnNow Power Management PC99
Power Switch Power Control Contro Switch
CardBus FIFO CardBu FIFO DatasBuffering
Interrupt Subsystem Interrup
EXCA 8/16-Bit 16PC Card Machin Card State Machine
CardBus Card State Machine Arbiter
EXCA 8/16 Card State Machine
CardBus Card State Machine Arbiter
Powe Power Switc Switch Interface
Card Socket Card Interface Interface
Socket Card Interface
OZ6933-SF-1.7
Page
OZ6933
SYSTEM BLOCK DIAGRAM
following diagram typical system block diagram utilizing OZ6933 ACPI CardBus controller with other related chipsets.
North Bridge
Memory
OZ6933 CardBus Controller
South Bridge
Card
Card
OZ6933-SF-1.7
Page
OZ6933
DIAGRAM TQFP
PCI_CLK PCI_GNT# PCI_REQ# AD31 AD30 PCI_VCC AD29 AD28 AD27 AD26 AD25 AD24 C/BE3# CORE_GND IDSEL AD23 AD22 AD21 AD20 AD19 PCI_VCC AD18 AD17 AD16 C/BE2# CORE_GND FRAME# CORE_GND IRDY# TRDY# DEVSEL# STOP# PERR# SERR# C/BE1# PCI_VCC AD15 AD14 AD13 AD12 AD11 AD10 CORE_GND C/BE0# PCI_VCC
B_A8/CCBE1# B_A17/CAD16 B_A13/CPAR B_SOCKET_VCC B_A18/RFU B_A14/CPERR# IRQ12/PME# B_A19/CBLOCK# B_WE#/CGNT# B_A20/CSTOP# B_RDY_IREQ#/CINT# B_A21/CDEVSEL# B_A16/CCLK B_A22/CTRDY# B_A15/CIRDY# B_A23/CFRAME# B_A12/CCBE2# B_A24/CAD17 B_A7/CAD18 B_A25/CAD19 B_A6/CAD20 B_VS2/CVS2 CORE_VCC B_A5/CAD21 B_RESET/CRESET# B_A4/CAD22 B_WAIT#/CSERR# B_A3/CAD23 B_INPACK#/CREQ# B_A2/CAD224 B_REG#/CC_BE3# B_A1/CAD25 B_BVD2/CAUDIO B_A0/CAD26 B_BVD1/CSTCHG IRQ11/SKTB_ACTV B_D0/CAD27 B_D8/CAD28 B_D1/CAD29 B_D9/CAD30 B_D2/RFU B_D10/CAD31 B_SOCKET_VCC B_WP/CCLKRUN# B_CD2#/CCD2# INTA# IRQ4/INTB# IRQ5/SERIRQ IRQ7/SIN#/B_VPP_PGM RST# IRQ14/CLKRUN#
Micro, Inc. OZ6933
B_IOWR#/CAD15 B_A9/CAD14 B_IORD#/CAD13 B_A11/CAD12 B_VS1/CVS1 B_OE#/CAD11 B_CE2#/CAD10 B_A10/CAD9 B_D15/CAD8 B_CE1#/CCBE0# B_VPP_VCC B_D14/RFU B_D7/CAD7 B_SOCKET_VCC B_D13/CAD6 B_D6/CAD5 B_D12/CAD4 B_D5/CAD3 B_D11/CAD2 B_D4/CAD1 B_CD1#/CCD1# B_D3/CAD0 CORE_VCC LED_OUT/SKT_ACTIVITY SCLK/A_VCC5# SDATA/B_VCC3# SLATCH/B_VCC_5# CORE_GND SPKR_OUT# AUX_VCC A_CD2#/CCD2# A_WP/CCLKRUN# A_D10/CAD31 A_D2/RFU A_D9/CAD30 A_D1/CAD29 A_D8/CAD28 A_D0/CAD27 A_BVD1/STSCHG G_RST# A_A0/CAD26 A_VPP_VCC A_BVD2/CAUDIO A_A1/CAD25 A_REG#/CCBE3# A_A2/CAD24 A_INPACK#/CREQ# A_A3/CAD23 A_WAIT#/CSERR# A_A4/CAD22 A_RESET/CRESET# A_A5/CAD21
A_VS2/CVS2 A_A6/CAD20 A_A25/CAD19 A_A7/CAD18 A_A24/CAD17 SOCKET_VCC A_A12/CCBE2# A_A23/CFRAME# A_A15/CIRDY# A_A22/CTRDY# A_A16/CCLK A_A21/CDEVSEL# A_RDY_IREQ#/CINT# A_A20/CSTOP# A_WE#/CGNT# A_A19/CBLOCK# IRQ3/VCC3# A_A14/CPERR# A_A18/RFU A_A13/CPAR A_A17/CAD16 A_A8/CCBE1# A_IOWR/CAD15 A_A9/CAD14 CORE_VCC A_IORD#/CAD13 A_A11/CAD12 A_VS1/CVS1 A_OE#/CAD11 A_CE2#/CAD10 A_A10/CAD9 IRQ15/RING_OUT A_D15/CAD8 A_CE1#/CCBE0# A_D14/RFU A_D7/CAD7 A_D13/CAD6 A_D6/CAD5 A_D12/CAD4 A_D5/CAD3 A_D11/CAD2 A_D4/CAD1 A_CD1#/CCD1# A_SOCKET_VCC A_D3/CAD0 LOCK# CORE_GND
OZ6933-SF-1.7
Page
OZ6933
LIST
Bold Text Normal Default Name
Interface Pins
Name AD[31:0] Description Address Input/Data: These pins connect signals AD[31:0]. transaction consists address phase followed more data phases. Number TQFP 4-5, 7-12, 16E1, 22-24, 38G5, 45-46, 48G2, 51-56 Input Type Power Rail Drive Spec
C/BE[3:0]#
FRAME#
IRDY#
TRDY#
STOP#
IDSEL
DEVSEL#
PERR#
Command/Byte Enable: command signaling byte enables multiplexed same pins. During address phase transaction, C/BE[3:0]# interpreted commands. During data phase, C/BE[3:0]# interpreted byte enables. byte enables valid entirety each data phase, they indicate which bytes 32-bit data path carry meaningful data current data phase. Cycle Frame: This input indicates OZ6933 that transaction beginning. While FRAME# asserted, data transfers continue. When FRAME# de-asserted, transaction final phases. Initiator Ready: This input indicates initiating agent's ability complete current data phase transaction. IRDY# used conjunction with TRDY#. Target Ready: This output indicates target Agent's OZ6933's ability complete current data phase transaction. TRDY# used conjunction with IRDY#. Stop: This output indicates current target requesting master stop current transaction. Initialization Device Select: This input used chip select during configuration read write transactions. This point-to-point signal. IDSEL used chip select during configuration read write transactions. Device Select: This output driven active when address recognized supported, thereby acting target current cycle. Target must respond before timeout occurs cycle will terminate. Parity Error: output driven active when data parity error detected during write phase.
Spec
Spec
Spec
Spec
OZ6933-SF-1.7
Page
OZ6933
Name SERR# Description System Error: This output driven active indicate address parity error. Parity: This generates parity ensures even parity across AD[31:0] C/BE[3:0]#. During address phase, valid after clock. With data phases, stable clock after write read transaction. Clock: This input provides timing transactions from OZ6933. signals, except RST#, sampled driven rising edge PCI_CLK. This input operated frequencies from 33MHz. Device Reset: This input used initialize registers internal logic their reset states place most OZ6933 pins HIGH-impedance state. Ring Indicate Out: This Ring Indicate when following occurs while Mode Control Register (index 2Eh) Power Control (Index+02h) Interrupt General Control (Index+03h) O2Micro Control (Offset: D4h) Clock Request: This signal used central resource request permission stop clock slow down, OZ6933 responds accordingly. enable CLKRUN# signal, need enable ExCA register bit[3:2]. Power Management Event: power management event process which OZ6933 request change power consumption state. Usually, occurs during request change from power saving state fully operational state. Socket Activity: This signal indicates that there activity socket read/write access. Refer Configuration Register 90h. Interrupt This output indicates programmable interrupt request generated from number card actions. Although there specific mapping requirement connecting interrupt lines from OZ6933 system, common connect this system INTA# signal. Number TQFP Input Type Power Rail Drive Spec
Spec
PCI_CLK
RST#
RI_OUT
CLKRUN#
Spec
PME#
SKTB_ACTV
INTA#
Spec
OZ6933-SF-1.7
Page
OZ6933
Name INTB# Description Interrupt This output indicates programmable interrupt request generated from number card actions. Although there specific mapping requirement connecting interrupt lines from OZ6933 system, common connect this system INTB# signal. IRQSER/SOUT#/IRQ5: PC/PCI Serial Interrupt Signaling mode, this serial interrupt output, SOUT#. PC/Way mode, this serializer interrupt controller. parallel mode, this IRQ5 IRQ7/SIN#/B_VPP_PGM: PC/PCI Serial Input Signaling mode, this serial interrupt input, SIN#. parallel mode, this IRQ7. This also configured parallel power control B_VPP_PGM Grant: This signal indicates that access been granted. Request: This signal indicates arbiter that OZ6933 requests bus. LOCK#: This signal used master perform locked transaction target memory. LOCK# used prevent more than master from using particular system resource. VCC: These pins must connected 3.3-volt power supply. interface outputs listed this table (Table 2-1) will operate voltage applied these pins, independent voltage applied other OZ6933 groups. Number TQFP Input Type Power Rail Drive Spec
IRQSER/ SOUT#/ IRQ5
Spec
IRQ7/SIN#/ B_VPP_PGM
GNT# REQ#
Spec Spec
LOCK#
Spec
PCI_VCC
PCMCIA Sockets Interface Pins
Socket number Socket number
Number Socket Socket TQFP TQFP
Name1 -REG#/ CCBE3#
Description2 Register Access: During PCMCIA memory cycles, this output chooses between attribute common memory. During cycles non-DMA transfers, this signal active (low). During mode, this signal always inactive. cycles OZ6933 DMA-capable card, -REG inactive during cycles indicate DACK PCMCIA card. CardBus Command Byte Enable: CardBus mode, this CCBE3#. PCMCIA socket address 25:24 outputs. CardBus Address/Data: CardBus mode, these pins bits PCMCIA socket address output. CardBus Frame: CardBus mode, this CFRAME# signal.
Drive CardBus spec.
A[25:24]/ CAD[19,
102,
U15,
176,
C11,
CardBus spec.
A23/ CFRAME#
CardBus spec.
OZ6933-SF-1.7
Page
OZ6933
Name1 A22/ CTRDY# A21/ CDEVSEL# A20/ CSTOP# A19/ CBLOCK# Description2 PCMCIA socket address output. CardBus Target Ready: CardBus mode, this CTRDY# signal. PCMCIA socket address output. CardBus Device Select: CardBus mode, this CDEVSEL# signal. PCMCIA socket address output. CardBus Stop: CardBus mode, this CSTOP# signal. PCMCIA socket address output. CardBus Lock: CardBus mode, this signal CBLOCK# signal used locked transactions. PCMCIA socket address output. Reserved: CardBus mode, this reserved future use. PCMCIA socket address output. CardBus Address/Data: CardBus mode, this PCMCIA socket address output. CardBus Clock: CardBus mode, this supplies clock inserted card. PCMCIA socket address output. CardBus Initiator Ready: CardBus mode, this CIRDY# signal. PCMCIA socket address output. CardBus Parity Error: CardBus mode, this CPERR# signal. PCMCIA socket address output. CardBus Parity:b CardBus mode, this CPAR signal. PCMCIA socket address output. CardBus Command/Byte Enable: CardBus mode, this CCBE2# signal. PCMCIA socket address 11:9 output. CardBus Address/Data: CardBus mode, these bits PCMCIA socket address output. CardBus Command/Byte Enable: CardBus mode, this CCBE1# signal. PCMCIA socket address outputs. CardBus Address/Data: CardBus mode, these pins bits 20:26. Number Socket Socket TQFP TQFP I/O-PU Drive CardBus spec. CardBus spec. CardBus spec. CardBus spec.
I/O-PU
I/O-PU
I/O-PU
A18/ A17/ CAD16 A16/ CCLK#
CardBus spec. CardBus spec. CardBus spec.
A15/ CIRDY# A14/ CPERR# A13/ CPAR A12/ CCBE2#
I/O-PU
CardBus spec. CardBus spec. CardBus spec. CardBus spec.
I/O-PU
A[11:9]/ CAD[12, CCBE1#
V10,
153, 149,
F14, F18,
CardBus spec.
CardBus spec.
A[7:0]/ CAD[18, 2026]
D15/ CAD8 D14/
PCMCIA socket data/0 CardBus Address/Data: CardBus mode, this PCMCIA socket data Reserved: CardBus mode, this reserved future use.
100, 103, 105, 107, 109, 111, 113,
P14, R14, T19, R17, N14, R19, P18,
175, 178, 181, 183, 185, 187, 189,
B11, F11, E10, F10,
CardBus spec.
CardBus spec.
OZ6933-SF-1.7
Page
OZ6933
Name1 D[13:3]/ CAD[6, Description2 PCMCIA socket data bits 13:3. CardBus Address/Data: CardBus mode, this respectively. Number Socket Socket TQFP TQFP 142, H15, 140, H17, 124, 138, H19, 122, L18, 199, 120, M19, 197, M15, 195, 144, G18, 141, H14, 139, H18, 137, J14, Drive CardBus spec.
D[1:0]/ CAD[29,27]
-OE/ CAD11
-WE/ CGNT#
-IORD/ CAD13
-IOWR/ CAD15
-IOIS16/ CCLKRUN#
PCMCIA socket data Reserved: CardBus mode, this reserved future use. PCMCIA socket data bits 1:0. CardBus Address/Data: CardBus mode, these pins bits respectively. Output Enable: This output goes active (low) indicate memory read from PCMCIA socket OZ6933. CardBus Address/Data: CardBus mode, this Write Enable: This output goes active (low) indicate memory write from OZ6933 PCMCIA socket. CardBus Grant: CardBus mode, this CGNT# signal. Read: This output goes active (low) reads from socket OZ6933. CardBus Address/Data: CardBus mode, this Write: This output goes active (low) writes from OZ6933 socket. CardBus Address/Data: CardBus mode, this Write Protect/ 16-Bit: Memory Card Interface mode, this inputs interpreted status write protect switch PCMCIA card. Card Interface mode, this input indicates size data current address PCMCIA card. CardBus Clock Run: CardBus mode, this CCLKRUN# signal, which starts stops CardBus CCLK. enable CLKRUN# signal, ExCA register 3Bh/7Bh bit[3:2] must enabled.
CardBus spec. CardBus spec.
121,
M18,
196,
CardBus spec.
CardBus spec.
CardBus spec.
CardBus spec.
I/O-PU
CardBus spec.
OZ6933-SF-1.7
Page
OZ6933
Name1 -INPACK/ CREQ# Description2 Input Acknowledge: -INPACK function applicable environments. However, compatibility with other Cirrus Logic products, this should connected PCMCIA socket's -INPACK pin. CardBus Request: CardBus mode, this CREQ# signal. Ready/Interrupt Request: Memory Card Interface mode, this input indicates OZ6933 that card either ready busy. Card Interface mode, this input indicates card interrupt request. CardBus Interrupt: CardBus mode, this CINT# signal. This signal active-low level-sensitive. Wait: This input indicates request card OZ6933 halt cycle progress until this signal deactivated. CardBus System Error: CardBus mode, this CSERR# signal. Card Detect: These inputs indicate OZ6933 that card socket. They internally pulled high voltage AuxVCC power pin. CardBus Card Detect: CardBus mode, these inputs used with CVS[2:1] detect presence type card. Card Enable driven OZ6933 during card access cycles control byte/word card access. -CE1 enables even-numbered address bytes, -CE2 enables odd-numbered address bytes. When configured 8bit cards, only -CE1 active used indicate access odd- evennumbered bytes. CardBus Address/Data: CardBus mode, this Card Enable driven OZ6933 during card access cycles control byte/word card access. -CE1 enables even-numbered address bytes, -CE2 enables odd-numbered address bytes. When configured 8bit cards, only -CE1 active used indicate access odd- evennumbered bytes. CardBus Command/Byte Enable: CardBus mode, this CCBEO# signal. Card Reset: This output normal operation goes high reset card. prevent reset glitches card, this signal high-impedance unless card seated socket, card power applied, card's interface signals enabled. CardBus Reset: CardBus mode, this CRST# output. Number Socket Socket TQFP TQFP I-PU Drive CardBus spec.
RDY/ -IREQ/ CINT#
I-PU
CardBus spec.
-WAIT/ CSERR#
I-PU
CardBus spec.
CD[2:1]/ CCD[2:1]#
126,
L14,
202,
I-PUSchmitt
CardBus spec.
-CE2/ CAD10
CardBus spec.
-CE1/ CCBE0#
CardBus spec.
RESET/ CRST#
CardBus spec.
OZ6933-SF-1.7
Page
OZ6933
Name1 BVD2/ -SPKR/ -LED/ CAUDIO Description2 Battery Voltage Detect 2/Speaker/ LED: Memory Card Interface mode, this input serves BVD2 (battery warning status) input. Card Interface mode, this input configured card's -SPKR binary audio input. non-ATA (SFF-68) disk-drive support, this input also configured drivestatus input. CardBus Audio: CardBus mode, this CAUDIO input. Number Socket Socket TQFP TQFP I-PU Drive
I-PU Battery Voltage Detect 1/Status Change/Ring Indicate: Memory Card Interface mode, this input serves BVD1 (battery-dead status) input. Card Interface mode, this input -STSCHG input, which indicates OZ6933 that card's internal status changed. Interrupt General Control register `1`, this serves ring indicate input wakeup-onring system power management support. CardBus Status Change: CardBus mode, this CSTSCHG. This used generate PME#. Voltage Sense This used VS2/ I/O-PU CB-spec CVS2 conjunction with determine operating voltage card. This internally pulled high voltage AuxVCC power under combined control external data write bits pull control bits. This connects PCMCIA socket CardBus Voltage Sense: CardBus mode, these pins CVS2 pins. Voltage Sense This used VS1/ I/O-PU CB-spec CVS1 conjunction with determine operating voltage card. This internally pulled high voltage AuxVCC power under combined control external data write bits pull control bits. This connects PCMCIA socket CardBus Voltage Sense: CardBus mode, these pins CVS1 pins. SOCKET_VCC Connect these pins supply 200, socket (pins 160, F13, respective PCMCIA socket). These pins 3.3, depending card presence, card type, system configuration. socket interface outputs (listed this table, Table 2-2) will operate voltage applied these pins, independent voltage applied other OZ6933 groups. differentiate sockets diagram, socket- specific pins have either prefixes names indicated. example, A_A[25:0] B_A[25:0] independent address buses sockets. When socket configured drive interface, socket interface functions change.
BVD1/ -STSCHG/ -RI/ CSTSCHG
OZ6933-SF-1.7
Page
OZ6933
Power Control General Interface Pins
Name SPKR_OUT Description Speaker Output: This output used digital output speaker allow system support Card fax/modem/voice audio sound output. This output enabled setting socket's Misc Control register (for socket whose speaker signal directed from BVD2/SPKR/-Led this pin). Output/SKTA_ACTV: This output used driver indicate disk activity when socket's BVD2/SPKR/-LED been programmed support. Mode(Index 3B/7B this indicates socket activity. socket activity refers Configuration Register offset (Mux Control register) Card Power Clock: This input used reference clock (10-100 kHz, usually kHz) control serial interface socket power control chips. A_VCC5#: This active-LOW output controls -volt supply socket's pins. active-LOW level this output mutually exclusive with that A_VCC3#. Card Power Serial Data: This serves output DATA when used with serial interface Texas Instruments' TPS2206IDF Micrel 2564 socket power control chip. B_VCC3#: This active-LOW output controls 3.3-volt supply socket's pins. active-LOW level this output mutually exclusive with that B_VCC5#. Card Power Serial Latch: This serves output LATCH when used with serial interface Texas Instruments' TPS2206IDF Micrel 2564 socket power control chip. B_VCC5#: This active-LOW output controls -volt supply socket's pins. active-LOW level this output mutually exclusive with that B_VCC3#. Number TQFP Input Type Power Rail Drive
LED_OUT/ SKTA_ACTV
CPWRCLK/ A_VCC5#
CPWRDATA/ B_VCC3#
CPWRLATC/ B_VCC5#
OZ6933-SF-1.7
Page
OZ6933
Name IRQ3/ A_VCC3# Description A_VCC3#/IRQ3: This active-LOW output controls 3.3-volt supply socket's pins. active-LOW level this output mutually exclusive with VCC_5#. This mode active only SktPwr Parallel mode enabled. This IRQ3 parallel mode. VPP_VCC/IRQ9: This active-HIGH output controls socket supply socket's VPP1 VPP2 pins. active-HIGH level this output mutually exclusive with that VPP_PGM. This mode active only SktPwr Parallel mode enabled This configured IRQ9 parallel mode. VPP_VCC/IRQ10: This active-HIGH output controls socket supply socket's VPP1 VPP2 pins. active-HIGH level this output mutually exclusive with that VPP_PGM. This mode active only SktPwr Parallel mode enabled. This configured IRQ10 parallel mode. Global_Reset#: This signal connected either reset ACPI reset depending system implementation. cold state implemented, this signal should connected ACPI reset, otherwise, connect reset. This signal reset content under cold state AUX_VCC provided Number TQFP Input Type Power Rail Drive
IRQ9/ A_VPP_VCC
IRQ10/ B_VPP_VCC
G_RST#
Power, Ground, Reserved Pins
Name AUX_VCC CORE_VCC Description This must connected system's 3.3-volt supply. This provides power core circuitry OZ6933. must connected power supply. OZ6933 ground pins must connected system ground. Number TQFP 180, 134, B10, J18, Input Type Power Rail Drive
101, 129,
V15, K18,
Legend
Type I-PU TO-PU OD-PU Description Input Input with internal pull-up Output Open-drain Tri-state output Tri-state output with internal pull-up Open-drain output with internal pull-up Power Power Rail Source Output's Power AUX_VCC: outputs powered from AUX_VCC A_SLOT_VCC: outputs powered from socket B_SLOT_VCC: outputs powered from socket PCI_VCC: outputs powered from power supply CORE_VCC: outputs powered from CORE_VCC
OZ6933-SF-1.7
Page
OZ6933
PACKAGE SPECIFICATIONS
OZ6933 208-PIN TQFP
O2MICRO, INC.
Symbol 0.002
INCHES 0.063 0.006
MILLIMETERS 0.05 1.35 0.17 0.09 1.40 0.22 1.60 0.15 1.45 0.27 0.20 GAGE PLANE
SEATING PLANE
0.053 0.055 0.057 0.007 0.009 0.011 0.004 1.181 1.102 1.181 1.102 0.020 BSC. 0.018 0.024 0.030 0.039 3.5° 0.008
0.25
30.00 BSC. 28.00 BSC. 30.00 BSC. 28.00 BSC. 0.50 BSC. 0.45 0.60 1.00 3.5° 0.75 SEC:
OZ6933-SF-1.7
Page
OZ6933
NOTES: DIMENSIONING TOLERANCING ASME Y14.5M-1994. REPRESENTS SOLDER BALL GRID PITCH. REPRESENTS MAXIMUM NUMBER SOLDER BALLS MATRIX SIZE DIMENSION MEASURED MAXIMUM SOLDER BALL DIAMETER AFTER REFLOW PARALLEL PRIMARY DATUM ORIGINAL SOLDER BALL DIAMETER 0.45 PRIMARY DATUM SEATING PLANE DEFINED SPHERICAL CROWNS SOLDER BALLS. CORNER MUST IDENTIFIED MARK, METALLIZED MARKINGS, IDENTATION OTHER FEATURE PACKAGE BODY, INTEGRAL HEATSLUG, SURFACE PACKAGE. SOLDER BALL DEPOPULATION ALLOWED. DEPOPULATION OMISSION BALLS FROM FULL MATRIX M2). BALL CORNER INDICATOR (NC) SOLDER BALL
OZ6933-SF-1.7
Page
Other recent searches
STW8NB90 - STW8NB90 STW8NB90 Datasheet
SCA2100-D01 - SCA2100-D01 SCA2100-D01 Datasheet
MC68HC912DT128 - MC68HC912DT128 MC68HC912DT128 Datasheet
MASW-002103-1363 - MASW-002103-1363 MASW-002103-1363 Datasheet
LM4312 - LM4312 LM4312 Datasheet
LD1701 - LD1701 LD1701 Datasheet
HDA700L - HDA700L HDA700L Datasheet
2SC3230 - 2SC3230 2SC3230 Datasheet
Privacy Policy | Disclaimer
© 2012 Datasheet Archive
