1、 MIPIMIPI Protocol IntroductionMIPI Development Team 2010-9-2.What is MIPI?What is MIPI?v MIPI stands for Mobile Industry Processor Interface MIPI Alliance is a collaboration of mobile industry leaders.Objective to promote open standards for interfaces to mobile application processors.Intends to spe
2、ed deployment of new services to mobile users by establishing Spec.v Board Members in MIPI Alliance Intel,Motorola,Nokia,NXP,Samsung,ST,TIWhat is MIPI?What is MIPI?v MIPI Alliance Specification for display DCS(Display Command Set)DCS is a standardized command set intended for command mode display mo
3、dules.DBI,DPI(Display Bus Interface,Display Pixel Interface)DBI:Parallel interfaces to display modules having display controllers and frame buffers.DPI:Parallel interfaces to display modules without on-panel display controller or frame buffer.DSI,CSI(Display Serial Interface,Camera Serial Interface)
4、DSI specifies a high-speed serial interface between a host processor and display module.CSI specifies a high-speed serial interface between a host processor and camera module.D-PHY D-PHY provides the physical layer definition for DSI and CSI.DSI LayersDSI LayersDCS specDSI specD-PHY specOutlineOutli
5、nevD-PHYIntroductionLane Module,State and Line levelsOperating ModesEscape ModeSystem Power StatesElectrical CharacteristicsSummaryIntroduction for D-PHYvD-PHY describes a source synchronous,high speed,low power,low cost PHYvA PHY configuration containsA Clock LaneOne or more Data LanesvThree main l
6、ane typesUnidirectional Clock LaneUnidirectional Data LaneBi-directional Data LanevTransmission ModeLow-Power signaling mode for control purpose:10MHz(max)High-Speed signaling mode for fast-data traffic:80Mbps 1Gbps per LanevD-PHY low-level protocol specifies a minimum data unit of one byteA transmi
7、tter shall send data LSB first,MSB last.vD-PHY suited for mobile applicationsDSI:Display Serial InterfaceA clock lane,One to four data lanes.CSI:Camera Serial InterfaceTwo Data Lane PHY ConfigurationTwo Data Lane PHY ConfigurationLane ModulevPHY consists of D-PHY(Lane Module)vD-PHY may containLow-Po
8、wer Transmitter(LP-TX)Low-Power Receiver(LP-RX)High-Speed Transmitter(HS-TX)High-Speed Receiver(HS-RX)Low-Power Contention Detector(LP-CD)vThree main lane typesUnidirectional Clock LaneMaster:HS-TX,LP-TXSlave:HS-RX,LP-RXUnidirectional Data LaneMaster:HS-TX,LP-TXSlave:HS-RX,LP-RXBi-directional Data L
9、aneMaster,Slave:HS-TX,HS-RX,LP-TX,LP-RX,LP-CDUniversal Lane Module ArchitectureUniversal Lane Module ArchitectureLane States and Line LevelsThe two LP-TXs drive the two Lines of a Lane independently and single-ended.Four possible Low-Power Lane states(LP-00,LP-01,LP-10,LP-11)A HS-TX drives the Lane
10、differentially.Two possible High Speed Lane states(HS-0,HS-1)During HS transmission the LP Receivers observe LP-00 on the LinesLine Levels(typical)LP:01.2VHS:100300mV(Swing:200mV)Lane StatesLP-00,LP-01,LP-10,LP-11HS-0,HS-1Operating ModesThere are three operating modes in Data LaneEscape mode,High-Sp
11、eed(Burst)mode and Control modePossible events starting from the Stop State of control modeEscape mode request(LP-11LP-10LP-00LP-01LP-00)High-Speed mode request(LP-11LP-01LP-00)Turnaround request(LP-11LP-10LP-00LP-10LP-00)Escape ModeEscape ModevEscape mode is a special operation for Data Lanes using
12、 LP states.With this mode some additional functionality becomes available:LPDT,ULPS,TriggerA Data Lane shall enter Escape mode via LP-11LP-10LP-00LP-01LP-00Once Escape mode is entered,the transmitter shall send an 8-bit entry command toindicate the requested action.Escape mode uses Spaced-One-Hot En
13、coding.means each Mark State is interleaved with a Space State(LP-00).Send Mark-0/1 followed by a Space to transmit a zero-bit/one-bitA Data Lane shall exit Escape mode via LP-10LP-11vUltra-Low Power StateDuring this state,the Lines are in the Space state(LP-00)Exited by means of a Mark-1 state with
14、 a length TWAKEUP(1ms)followed by a Stop state.Escape ModeEscape ModeClock Lane Ultra-Low Power StateClock Lane Ultra-Low Power Statev A Clock Lane shall enter ULPS viaLP-11LP-10LP-00v exited by means of a Mark-1 with a length TWAKEUP followed by a Stop StateLP-10 TWAKEUP LP-11The minimum value of T
15、WAKEUP is 1msHigh-Speed Data TransmissionHigh-Speed Data Transmissionv The action of sending high-speed serial data is called HS transmission or burst.v Start-of-TransmissionLP-11LP-01LP-00SoT(0001_1101)HS Data Transmission BurstAll Lanes will start synchronouslyBut may end at different timesThe clo
16、ck Lane shall be in High-Speed mode,providing a DDR Clock to the Slave sidevEnd-of-TransmissionH Toggles differential state immediately after last payload data bitv and keeps that state for a time THS-TRAILHigh-Speed Clock TransmissionHigh-Speed Clock Transmissionv Switching the Clock Lane between C
17、lock Transmission and LP ModeA Clock Lane is a unidirectional Lane from Master to SlaveIn HS mode,the clock Lane provides a low-swing,differential DDR clock signal.the Clock Burst always starts and ends with an HS-0 state.the Clock Burst always contains an even number of transitionsSummary for D-PHY
18、Summary for D-PHYv Lane Module,Lane State and Line LevelsLane Module:LP-TX,LP-RX,HS-TX,HS-RX,LP-CDLane States:LP-00,LP-01,LP-10,LP-11,HS-0,HS-1Line Levels(typical):LP:01.2V,HS:100300mV(Swing:200mV)vOperating ModesEscape Mode entry procedure:LP-11LP-10LP-00LP-01LP-00Entry Code LPD(10MHz)Escape Mode e
19、xit procedure:LP-10LP-11High Speed Mode entry procedure:LP-11LP-01LP-00SoT(00011101)HSD(80Mbps 1Gbps)High Speed Mode exit procedure:EoTLP-11Control Mode-BTA transmission procedure:LP-11LP-10LP-00LP-10LP-00Control Mode-BTA receive procedure:LP-00LP-10LP-11vSystem Power StatesLow-Power mode,High-Speed
20、 mode,Ultra-Low Power modevFault DetectionContention Detection(LP-CD),Watchdog Timer,Sequence Error Detection(Error Report)vGlobal Operation Timing ParameterClock Lane Timing,Data Lane TimingOther Timing Initialization,BTA,Wake-Up from ULPSvElectrical CharacteristicsHS-RX,LP-RX,LP-TX,LP-CD,Pin chara
21、cteristic,Clock signal,Data-Clock timingDC and AC characteristicOutlineOutlinevDSIIntroductionLane Distributor/Merger ConceptualPacket StructureData Transmission WayProcessor-Sourced PacketsPeripheral-Sourced PacketsReverse-Direction LP TransmissionVideo ModeSummaryIntroduction for DSIIntroduction f
22、or DSIv DSI is a Lane-scalable interface for increased performance.One Clock Lane/One to Four Data LanesvDSI-compliant peripherals support either of two basic modes of operationCommand Mode(Similar to MPU IF)Data Lane 0:bidirectionalFor returning data,ACK or error report to hostAdditional Data Lanes
23、:unidirectional.Video Mode(Similar to RGB IF)Data Lane 0:bidirectional or unidirectional;Additional Data Lanes:unidirectional.Video data should only be transmitted using HS mode.vTransmission ModeHigh-Speed signaling modeLow-Power signaling modeForward/Reverse direction LP transmissions shall use Da
24、ta Lane 0 onlyFor returning data,DSI-compliant systems shall only use Data Lane 0 in LP ModevPacket TypesShort Packet:4 bytes(fixed length)Long Packet:665541 bytes(variable length)Two Data Lanes HS Transmission ExampleTwo Data Lanes HS Transmission ExampleData Transmission WayvSeparate Transmissions
25、vSeparate Transmissionsv KEY:LPS Low Power State SP Short PacketSoT Start of Transmission LgP Long PacketEoT End of TransmissionShort Packet StructureShort Packet Structurev Packet Header(4 bytes)Data Identifier(DI)*1byte:Contains the Virtual Channel7:6 and Data Type5:0.Packet Data*2byte:Length is f
26、ixed at two bytesError Correction Code(ECC)*1byte:allows single-bit errors to be corrected and 2-bit errors to be detected.vPacket SizeFixed length 4 bytesvThe first byte of any packet is the DI(Data Identifier)byte.DI7:6:These two bits identify the data as directed to one of four virtual channels.D
27、I5:0:These six bits specify the Data Type.Long Packet StructureLong Packet StructurevPacket Header(4 bytes)Data Identifier(DI)*1byte:Contains the Virtual Channel7:6 and Data Type5:0.Word Count(WC)*2byte:defines the number of bytes in the Data Payload.Error Correction Code(ECC)*1byte:allows single-bi
28、t errors to be corrected and 2-bit errors to be detected.vData Payload(065535 bytes)Length=WC bytesvPacket Footer(2 bytes):ChecksumIf the payload has length 0,then the Checksum calculation results in FFFFhIf the Checksum isnt calculated,the Checksum value is 0000hvPacket Size4+(065535)+2=6 65541 byt
29、esData Types for Processor-sourced PacketsData Types for Processor-sourced PacketsError Correction CodeError Correction Codev P7=0v P6=0v P5=D10D11D12D13D14D15D16D17D18D19D21D22D23v P4=D4D5D6D7D8D9D16D17D18D19D20D22D23v P3=D1D2D3D7D8D9D13D14D15D19D20D21D23v P2=D0D2D3D5D6D9D11D12D15D18D20D21D22v P1=D
30、0D1D3D4D6D8D10D12D14D17D20D21D22D23v P0=D0D1D2D4D5D7D10D11D13D16D20D21D22D23ChecksumChecksumvunsigned char xx=0 x01,0 x5a,0 x5a,0 x03,0 x08,0 x2A,0 x00,0 x01 ,0 x00,0 xF8,0 x00,0 xF6,0 x57,0 x00,0X00,0 xE5;vtypedef unsigned short U16;vtypedef unsigned char U8;vU16 CRC_test;vU16 crc16_update(U16 crc,
31、U8 a);vint main()vv U16 crc,i;v crc=0 xFFFF;v for(i=0;i1;i+)crc=crc16_update(crc,xxi);v CRC_test=crc;v vU16 crc16_update(U16 crc,U8 a)vv int i;v crc=a;v for(i=0;i 1)0 x8408;v else crc=(crc 1);v v return crc;vPeripheral-to-Processor LP TransmissionsvDetailed format descriptionPacket structure for per
32、ipheral-to-processor transactions is the same as forthe processor-to-peripheral directionv For a single-byte read response,valid data shall be returned in the first byte The second byte shall be sent as 00hvIf the peripheral does not support Checksum it shall return 0000hPeripheral-to-Processor LP T
33、ransmissionsvPeripheral-to-processor transactions are of four basic typesTearing Effect(TE):trigger message(BAh)Acknowledge:trigger message(84h)Acknowledge and Error Report:short packet(Data Type is 02h)Response to Read Request:short packet or long packetGeneric Read Response、DCS Read Response(1byte
34、,2byte,multi byte)vFeatureBTA shall take place after every peripheral-to-processor transactionMulti-Lane systems shall use Lane 0 for all peripheral-to-processor transmissionsReverse-direction signaling shall only use LP mode of transmissionVideo ModevDSI supports three formats for Video Mode data t
35、ransmissionNon-Burst Mode with Sync PulsesNon-Burst Mode with Sync EventsBurst ModeSummary for DSIvDSI is a Lane-scalable interface.One Clock LaneOne to Four Data LanesvTransmission ModeHigh-Speed signaling mode(differential signal)(100mV300mV)Low-Power signaling mode(single-ended signal)(0V1.2V)For
36、 returning data,only use Data Lane 0 in LP ModevPacket TypesShort Packet:4 bytes(fixed length)Data ID(1byte)+Data0(1byte)+Data1(1byte)+ECC(1byte)Long Packet:665541 bytes(variable length)Packet Header(4 bytes)+Data Payload(065535 bytes)+Packet Footer(2 bytes)vOperation ModeCommand Mode(Similar to MPU IF)Video Mode(Similar to RGB IF)Non-Burst Mode with Sync PulsesNon-Burst Mode with Sync EventsBurst Mode Thank you!