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DS90UB914ATRHSTQ1

DS90UB914ATRHSTQ1

  • 厂商:

    BURR-BROWN(德州仪器)

  • 封装:

    WQFN-48_7X7MM-EP

  • 描述:

    IC SER/DES 25-100MHZ FPD 48WQFN

  • 数据手册
  • 价格&库存
DS90UB914ATRHSTQ1 数据手册
Order Now Product Folder Support & Community Tools & Software Technical Documents DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 DS90UB914A-Q1 25-MHz to 100-MHz 10- and 12-Bit FPD-Link III Deserializer 1 Features 3 Description • The DS90UB914A-Q1 device offers an FPD-Link III interface with a high-speed forward channel and a bidirectional control channel for data transmission over a single coaxial cable or differential pair. The DS90UB914A-Q1 device incorporates differential signaling on both the high-speed forward channel and bidirectional control channel data paths. The deserializer is targeted for connections between imagers and video processors in an ECU (Electronic Control Unit). This device is ideally suited for driving video data requiring up to 12-bit pixel depth plus two synchronization signals along with bidirectional control channel bus. 1 • • • • • • • • • • • Qualified for automotive applications AEC-Q100 – Device temperature grade 2: –40℃ to +105℃ ambient operating temperature range – Device HBM ESD classification level ±8kV – Device CDM ESD classification level C6 25-MHz to 100-MHz Input Pixel Clock Support Programmable data payload: – 10-bit Payload up to 100-MHz – 12-bit Payload up to 75-MHz Continuous low latency bidirectional control interface channel with I2C support at 400-kHz 2:1 Multiplexer to choose between two input images Capable of receiving over 15-m coaxial or 20-m shielded twisted-pair cables Robust Power-Over-Coaxial (PoC) operation Receive equalizer automatically adapts for changes in cable loss LOCK output reporting pin and @SPEED BIST diagnosis feature to validate link integrity Single power supply at 1.8-V ISO 10605 and IEC 61000-4-2 ESD compliant EMI/EMC mitigation with programmable spread spectrum (SSCG) and receiver staggered outputs 2 Applications • • • Automotive – Surround view systems (SVS) – Rear and front view cameras – Driver monitor cameras (DMS) – Remote satellite RADAR sensors Security and surveillance Industrial machine vision The deserializer features a multiplexer to allow selection between two input imagers, one active at a time. The primary video transport converts 10-bit or 12-bit data to a single high-speed serial stream, along with a separate low latency bidirectional control channel transport that accepts control information from an I2C port and is independent of video blanking period. Using TI’s embedded clock technology allows transparent full-duplex communication over a single differential pair, carrying asymmetrical-bidirectional control channel information. This single serial stream simplifies transferring a wide data bus over PCB traces and cable by eliminating the skew problems between parallel data and clock paths. This significantly saves system cost by narrowing data paths that in turn reduce PCB layers, cable width, and connector size and pins. In addition, the Deserializer inputs provide adaptive equalization to compensate for loss from the media over longer distances. Internal DC-balanced encoding/decoding is used to support AC-coupled interconnects. Device Information(1) PART NUMBER DS90UB914A-Q1 PACKAGE WQFN (48) BODY SIZE (NOM) 7.00 mm × 7.00 mm (1) For all available packages, see the orderable addendum at the end of the data sheet. Simplified Schematic Parallel Data In 10 or 12 Parallel Data Out 10 or 12 FPD-Link III 2 Megapixel Imager/Sensor HSYNC, VSYNC 2 DS90UB913AQ1 4 GPO 2 Bidirectional Control Bus Serializer Bidirectional Control Channel DS90UB914AQ1 HSYNC, VSYNC 4 DSP, FPGA/ µ-Processor/ ECU GPIO 2 Deserializer Bidirectional Control Bus Copyright © 2016, Texas Instruments Incorporated 1 An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications, intellectual property matters and other important disclaimers. PRODUCTION DATA. DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com Table of Contents 1 2 3 4 5 6 7 Features .................................................................. Applications ........................................................... Description ............................................................. Revision History..................................................... Device Comparison Table..................................... Pin Configuration and Functions ......................... Specifications......................................................... 1 1 1 2 4 5 9 7.1 7.2 7.3 7.4 7.5 7.6 Absolute Maximum Ratings ...................................... 9 ESD Ratings.............................................................. 9 Recommended Operating Conditions....................... 9 Thermal Information ................................................ 10 Electrical Characteristics ........................................ 10 AC Timing Specifications (SCL, SDA) - I2CCompatible ............................................................... 14 7.7 Bidirectional Control Bus DC Timing Specifications (SCL, SDA) - I2C-Compatible ................................. 15 7.8 Deserializer Switching Characteristics.................... 15 7.9 Typical Characteristics ............................................ 17 8 Parameter Measurement Information ................ 17 9 Detailed Description ............................................ 21 8.1 Timing Diagrams and Test Circuits......................... 17 9.2 9.3 9.4 9.5 9.6 Functional Block Diagram ....................................... Feature Description................................................. Device Functional Modes........................................ Programming .......................................................... Register Maps ......................................................... 22 22 27 33 38 10 Application and Implementation........................ 49 10.1 Application Information.......................................... 49 10.2 Typical Applications .............................................. 53 11 Power Supply Recommendations ..................... 57 12 Layout................................................................... 58 12.1 Layout Guidelines ................................................. 58 12.2 Layout Example .................................................... 59 13 Device and Documentation Support ................. 61 13.1 13.2 13.3 13.4 13.5 13.6 Documentation Support ....................................... Receiving Notification of Documentation Updates Community Resources.......................................... Trademarks ........................................................... Electrostatic Discharge Caution ............................ Glossary ................................................................ 61 61 61 61 61 61 14 Mechanical, Packaging, and Orderable Information ........................................................... 61 9.1 Overview ................................................................. 21 4 Revision History Changes from Revision C (November 2018) to Revision D Page • Added tDLH and tDHL to Output Load and Transition Times diagram ................................................................................ 18 • Added 953A in the list of compatible serializers................................................................................................................... 21 • Changed text in MODE Pin Configuration figure from "Serializer" to "Deserializer" ............................................................ 29 • Clarified bit descriptions for registers 0x1D-0x1E bits 4 and 0............................................................................................. 44 • Added timing diagram and data table for PDB to I2C ready delay ...................................................................................... 51 Changes from Revision B (October 2016) to Revision C Page • Clarified when PCLK becomes active with respect to LOCK ................................................................................................ 6 • Added Power Over Coax supply noise to the recommended operating conditions table ..................................................... 9 • Corrected to tDLH and tDHL for data low-to-high and high-to-low transition time ................................................................... 15 • Moved the timing diagrams to the Parameter Measurement Information section................................................................ 17 • Added reference to compatibility with DS90UB953-Q1/935-Q1 serializers ........................................................................ 21 • Updated pullup and pulldown resistor to R1 and R2 in MODE pin configuration diagram ................................................... 29 • Updated register "TYPE" column per legend ...................................................................................................................... 38 • Added type and default value to the reserved register bits that were missing this information .......................................... 38 Changes from Revision A (June 2016) to Revision B Page • Added Back Channel Line Rate specification; also added footnote for clarification between MHz and Mbps distinction. .. 11 • Revised back channel VOD specification from 175mV to 182 mV. .................................................................................... 11 • Removed 'ns' unit from specifications referencing period in units of T. ............................................................................... 15 • Revise Deserializer Delay specification due to the swapped information. .......................................................................... 16 2 Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 • Revised jitter tolerance curve to be for typical system IJT configuration with DS90UB913A linked to DS90UB914A. ...... 17 • Added device functional mode table for external oscillator operation with example XCLKIN = 48MHz. ............................ 27 • Fixed typo and changed "deserializer" to "serializer". .......................................................................................................... 39 • Added register 0x05 for Forward Channel Low Frequency Gain. ....................................................................................... 40 • Added registers 0x27, 0x47 for Forward Channel Tuning/Impedance Control. ................................................................... 47 • Revised rise time and delay conditions to include 10% to 90% parameters instead of VIH and VIL. ................................. 50 • Changed max rise time for VDDIO and VDD_N to be 5ms instead of 1.5ms during power-up. ............................................... 50 • Revised power-up timing paragraph for clarity and correctness. ......................................................................................... 50 • Changed VIL and VIH specs to 10% and 90% respectively for rising/falling edges. ........................................................... 50 Changes from Original (April 2016) to Revision A Page • Split document into two separate documents for parts DS90UB913A-Q1 SNLS443 and DS90UB914A-Q1 SNLS499. ..... 1 • Combined revision history showing changes when this document was part of the DS90UB913A-Q1 SNLS443 datasheet 1 • Added Automotive Features ................................................................................................................................................... 1 • Updated pin description for ROUT to include active/inactive outputs corresponding to MODE setting................................. 5 • Added pin description to GPIO pins to leave open if unused. ............................................................................................... 6 • Updated frequency requirements for 10-bit and 12-bit HF modes. 10-bit mode – 50 MHz to 100 MHz; 12-bit HF mode – 37.5 MHz to 75 MHz; 12-bit LF mode (no change) – 25 MHz to 50 MHz. .............................................................. 6 • Added pin description to RIN pins to leave open if unused. ................................................................................................. 8 • Changed Air Discharge ESD Rating (IEC61000-4-2: RD = 330 Ω, CS = 150 pF) to minimum ±25000 V. .......................... 9 • Added additional thermal characteristics.............................................................................................................................. 10 • Added GPIO[3:0] typical pin capacitance ............................................................................................................................ 10 • Changed Differential Input Voltage minimum specification. ................................................................................................. 11 • Changed Single-Ended Input Voltage minimum specification.............................................................................................. 11 • Added Back Channel Differential Output Voltage minimum specification. ........................................................................... 11 • Added Back Channel Single-Ended Output Voltage minimum specification........................................................................ 11 • Added footnote that states the following: “UI – Unit Interval is equivalent to one serialized data bit width. The UI scales with PCLK frequency.” Also added below calculations to footnote. 12-bit LF mode 1 UI = 1 / ( PCLK_Freq. x 28 ) 12-bit HF mode 1 UI = 1 / ( PCLK_Freq. x 2/3 x 28 ) 10-bit mode 1 UI = 1 / ( PCLK_Freq. /2 x 28 ) ........................ 11 • Updated IDDIOR for VDDIO=1.89V, CL=8pF, Worst-Case Pattern with f=50 MHz, 12-bit low freq mode to typical value of 16 mA; value is currently 21 mA. ........................................................................................................................................ 12 • Updated IDDIOR for VDDIO=1.89V, CL=8pF, Random Pattern with f=50 MHz, 12-bit low freq mode to typical value of 10 mA; value is currently 14 mA................................................................................................................................................ 12 • Updated IDDR for VDD_n=1.89V, CL=4pF, Random Pattern with f=100 MHz, 10-bit mode to typical value of 69 mA; value is currently 57 mA. ..................................................................................................................................................... 12 • Updated IDDR for VDD_n=1.89V, CL=4pF, Random Pattern with f=75 MHz, 12-bit high freq mode to typical value of 71 mA; value is currently 60 mA................................................................................................................................................ 12 • Updated IDDR for VDD_n=1.89V, CL=4pF, Random Pattern with f=50 MHz, 12-bit low freq mode to typical value of 67 mA; value is currently 56 mA................................................................................................................................................ 12 • Updated VOL Output Low Level row with revised IOL currents and max VOL voltages, dependent upon VDDIO voltage........ 15 • Updated frequency ranges for MODE settings and also revised with correct maximum clock periods. Added footnote and nominal clock period to be in terms of 'T'. ..................................................................................................................... 15 • Changed typo on footnote to reflect 'tDPJ'. ............................................................................................................................ 16 • Updated Figure 2 title to state ‘“Worst-Case” Test Pattern for Power Consumption’ .......................................................... 17 • Updated Figure 3 “Deserializer Vswing Diagram” with correct notation. ............................................................................. 18 • Changed Figure 3 to clarify difference between STP and Coax .......................................................................................... 18 • Table 2, row 5 with “static” input LOCK output status changed to “L”. ............................................................................... 30 • Table 5 heading updated to state “DS90UB914A-Q1 DESERIALIZER. ............................................................................. 36 Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 3 DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com • Changed description of deserializer reg 0x00 bit[0]=0 from "set using address coming from CAD" to "set from ID[x]" ..... 38 • Added row to register 0x01[2] for Back Channel Enable – 0: Disable 1: Enable................................................................. 38 • Changed SSCG Units for fmod (register 0x02[3:0]) to Reflect Hz instead of KHz............................................................... 39 • Changed parity error reset bit to be NOT self-clearing. ...................................................................................................... 39 • Changed EQ gain values (dB) @ maximum line rate (1.4Gbps). ........................................................................................ 40 • Changed description of deserializer reg 0x04 to have correct register setting for each equalization gain level. ................ 40 • Added registers 0x26, 0x46 for Bidirectional Control Channel (BCC)Tuning. ..................................................................... 47 • Added deserializer 0x4C SEL register.................................................................................................................................. 48 • Updated EQ Register Bits 0x4E[3:0] to be Reserved. Also changed EQ gain values (dB) @ maximum line rate (1.4Gbps).............................................................................................................................................................................. 48 • Added reference to Power over Coax Application report ..................................................................................................... 49 • Updated power up sequencing information and timing diagram. ........................................................................................ 49 • Added power up sequencing information and timing diagram. ............................................................................................ 49 • Added 914A PDB Reset timing constraints and diagram. ................................................................................................... 50 • Removed Figure 21 and Figure 43 regarding adaptive equalizer graphs for loss compensation (Coax/STP). .................. 52 • Renamed C1 and C2 to C22 and C23 for RIN0+ and RIN0- respectively on Typical Application Diagrams (Coax & STP). .................................................................................................................................................................................... 54 • Added description specifying that the voltage applied on VDDIO (1.8 V, 3.3 V) or VDD_n (1.8 V) should be at the input pin – any board level DC drop should be compensated. .................................................................................................... 57 • Added 914A EVM layout example image. ........................................................................................................................... 60 5 Device Comparison Table 4 PART NUMBER FPD-III FUNCTION PACKAGE TRANSMISSION MEDIA PCLK FREQUENCY DS90UB914Q-Q1 Deserializer WQFN RHS (48) STP 10 to 100 MHz DS90UB914A-Q1 Deserializer WQFN RHS (48) Coax or STP 25 to 100 MHz Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 6 Pin Configuration and Functions PDB VDDIO1 GPIO[0] 30 29 28 GPIO[3] VDDCML1 31 25 RIN1+ 32 GPIO[1] RIN133 GPIO[2] IDx[1] 34 26 IDx[0] 35 27 VDDR 36 RHS Package 48-Pin WQFN Top View 24 ROUT[0] 23 ROUT[1] MODE 37 CMLOUTP 38 CMLOUTN 39 22 ROUT[2] VDDCML0 40 21 ROUT[3] RIN0+ 41 20 VDDIO2 RIN0- 42 19 ROUT[4] RES 43 18 ROUT[5] DAP = GND DS90UB914A-Q1 Deserializer 7 8 9 10 11 12 PCLK VSYNC HSYNC ROUT[11] ROUT[10] ROUT[9] VDDIO3 13 6 48 5 LOCK OEN PASS ROUT[8] BISTEN ROUT[7] 14 4 15 47 OSS_SEL 46 3 SEL VDDSSCG ROUT[6] 2 VDDD 16 SCL 17 45 1 44 SDA RES VDDPLL Pin Functions: DS90UB914A-Q1 Deserializer PIN NAME I/O NO. DESCRIPTION LVCMOS PARALLEL INTERFACE 11,12,13,14, 15,16,18,19, 21,22,23,24 Outputs, LVCMOS Parallel Data Outputs For 10-bit MODE, parallel outputs ROUT[9:0] are active. ROUT[11:10] are inactive and should not be used. Any unused outputs (including ROUT[11:10]) should be No Connect. For 12-bit MODE (HF or LF), parallel outputs ROUT[11:0] are active. Any unused outputs should be No Connect. HSYNC 10 Output, LVCMOS Horizontal SYNC Output. Note: HS transition restrictions: 1. 12-bit Low-Frequency mode: No HS restrictions (raw) 2. 12-bit High-Frequency mode: No HS restrictions (raw) 3. 10-bit mode: HS restricted to no more than one transition per 10 PCLK cycles. Leave open if unused. VSYNC 9 Output, LVCMOS Vertical SYNC Output. Note: VS transition restrictions: 1. 12-bit Low-Frequency mode: No VS restrictions (raw) 2. 12-bit High-Frequency mode: No VS restrictions (raw) 3. 10-bit mode: VS restricted to no more than one transition per 10 PCLK cycles. Leave open if unused. 8 Output, LVCMOS Pixel Clock Output Pin Strobe edge set by RRFB control register. In the 12-bit low frequency mode and 10-bit mode, the PCLK will become active before LOCK goes high. In the 12-bit high frequency mode, the PCLK and LOCK become active at the same time. ROUT[11:0] PCLK Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 5 DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com Pin Functions: DS90UB914A-Q1 Deserializer (continued) PIN NAME I/O NO. DESCRIPTION GENERAL PURPOSE INPUT/OUTPUT (GPIO) GPI0[1:0] GPIO[3:2] 27,28 General-purpose input/output pins can be used to control and respond to various commands. Digital They may be configured to be the input signals for the corresponding GPOs on the serializer Input/Output, or they may be configured to be outputs to follow local register settings. Leave open if LVCMOS unused. 25,26 Digital Input/Output LVCMOS General purpose input/output pins GPO[3:2] can be configured to be input signals for GPOs on the Serializer. In addition they can also be configured to be outputs to follow the local register settings. When the SerDes chipsets are working with an external oscillator, these pins can be configured only to be outputs to follow the local register settings. Leave open if unused. BIDIRECTIONAL CONTROL BUS - I2C COMPATIBLE SCL 2 Input/Output, Clock line for the bidirectional control bus communication Open Drain SCL requires an external pullup resistor to VDDIO. SDA 1 Input/Output, Data line for bidirectional control bus communication Open Drain SDA requires an external pullup resistor to VDDIO. MODE 37 Device Mode Select Resistor to Ground and 10-kΩ pullup to 1.8 V rail. The MODE pin on the Deserializer can be used to configure the Serializer and Deserializer to work in different input PCLK range. See details in Table 2. 12– bit low frequency mode – (25 – 50 MHz operation): In this mode, the Serializer and Deserializer can accept up to 12-bits DATA+2 SYNC. Input PCLK range is from 25 MHz to 50 MHz. Note: No HS/VS restrictions. Input, analog 12– bit high frequency mode – (37.5 – 75 MHz operation): In this mode, the Serializer and Deserializer can accept up to 12-bits DATA + 2 SYNC. Input PCLK range is from 37.5 MHz to 75 MHz. Note: No HS/VS restrictions. 10–bit mode– (50 – 100 MHz operation): In this mode, the Serializer and Deserializer can accept up to 10-bits DATA + 2 SYNC. Input PCLK frequency can range from 50 MHz to 100 MHz. Note: HS/VS restricted to no more than one transition per 10 PCLK cycles. Please refer to Table 2 on how to configure the MODE pin on the Deserializer. IDx[0:1] 35,34 Device ID Address Select Input, analog The IDx[0] and IDx[1] pins on the Deserializer are used to assign the I2C slave device address. Resistor to Ground and 10-kΩ pullup to 1.8 V rail. See Table 6 CONTROL AND CONFIGURATION PDB 30 Input, LVCMOS w/ pulldown Power Down Mode Pin PDB = H, Deserializer is enabled and is ON. PDB = L, Deserializer is in power down mode. When the Deserializer is in power down mode, programmed control register data are NOT retained and reset to default values. LOCK Status Output Pin LOCK = H, PLL is Locked, outputs are active. LOCK = L, PLL is unlocked, ROUT and PCLK output states are controlled by OSS_SEL control register. May be used as Link Status. In the 12-bit low frequency mode and 10-bit mode, the PCLK will become active before LOCK goes high. In the 12-bit high frequency mode, the PCLK and LOCK become active at the same time. LOCK 48 Output, LVCMOS BISTEN 6 Input LVCMOS w/ pulldown PASS 47 Output, LVCMOS OEN 5 Input LVCMOS w/ pulldown Output Enable Input Refer to Table 3. OSS_SEL 4 Input LVCMOS w/ pulldown Output Sleep State Select Pin Refer to Table 3. 6 BIST Enable Pin BISTEN=H, BIST Mode is enabled. BISTEN=L, BIST Mode is disabled. See Built-In Self Test for more information. PASS Output Pin PASS = H, ERROR FREE Transmission. PASS = L, one or more errors were detected in the received payload. See Built-In Self Test for more information. Leave Open if unused. Route to test point (pad) recommended. Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 Pin Functions: DS90UB914A-Q1 Deserializer (continued) PIN NAME SEL NO. 46 I/O Input LVCMOS w/ pulldown DESCRIPTION MUX Select Line SEL = L, RIN0+/- input. This selects input A as the active channel on the Deserializer. SEL = H, RIN1+/- input. This selects input B as the active channel on the Deserializer. Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 7 DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com Pin Functions: DS90UB914A-Q1 Deserializer (continued) PIN NAME I/O NO. DESCRIPTION FPD–Link III INTERFACE RIN0+ 41 Input/Output, Noninverting Differential input, bidirectional control channel. The IO must be AC-coupled with CML a 0.1-µF capacitor. Leave open if unused. RIN0- 42 Inverting Differential input, bidirectional control channel. The IO must be AC-coupled with a Input/Output, 0.1-µF capacitor. For applications using single-ended coaxial interconnect, a 0.047-µF, ACCML coupling capacitor should be placed in series with a 50-Ω resistor before terminating to GND. Leave open if unused. RIN1+ 32 Input/Output, Noninverting Differential input, bidirectional control channel. The IO must be AC-coupled with CML a 0.1-µF capacitor. Leave open if unused. RIN1- 33 Inverting Differential input, bidirectional control channel. The IO must be AC coupled with a Input/Output, 0.1-µF capacitor. For applications using single-ended coaxial interconnect, a 0.047-µF, ACCML coupling capacitor should be placed in series with a 50-Ω resistor before terminating to GND. Leave open if unused. RES 43,44 CMLOUTP/N 38,39 POWER AND GROUND — Output, CML Reserved. This pin must always be tied low. Route to test point or leave open if unused. (1) 29, 20, 7 Power, Digital LVCMOS I/O Buffer Power, The single-ended outputs and control input are powered from VDDIO. VDDIO can be connected to a 1.8 V ±5% or 3.3 V ±10%. VDDD 17 Power, Digital Digital Core Power, 1.8 V ±5%. VDDSSCG 3 Power, Analog SSCG PLL Power, 1.8 V ±5%. VDDR 36 Power, Analog Rx Analog Power, 1.8 V ±5%. 40,31 Power, Analog CML and Bidirectional control channel Drive Power, 1.8 V ±5%. 45 Power, Analog PLL Power, 1.8 V ±5%. DAP Ground, DAP VDDIO1/2/3 VDDCML0/1 VDDPLL VSS (1) 8 DAP must be grounded. DAP is the large metal contact at the bottom side, located at the center of the WQFN package. Connected to the ground plane (GND) with at least 16 vias. See Power-Up Requirements and PDB Pin. Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 7 Specifications 7.1 Absolute Maximum Ratings over operating free-air temperature range (unless otherwise noted) (1) MIN MAX UNIT Supply voltage – VDD_n (1.8 V) –0.3 2.5 V Supply voltage – VDDIO –0.3 4 V LVCMOS input voltage –0.3 VDDIO + 0.3 V CML receiver I/O voltage (VDD) –0.3 VDD + 0.3 V 150 °C 150 °C Junction temperature Storage temperature, Tstg (1) –65 Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. 7.2 ESD Ratings VALUE V(ESD) Electrostatic discharge Human body model (HBM), per AEC Q100-002 (1) ±8000 Charged device model (CDM), per AEC Q100-011 ±1000 (IEC 61000-4-2) RD = 330 Ω, Cs = 150pF (ISO10605) RD = 330 Ω, Cs = 150/330 pF RD = 2 KΩ, Cs = 150/330 pF (1) Air Discharge (DOUT+, DOUT–, RIN+, RIN–) ±25000 Contact Discharge (DOUT+, DOUT–, RIN+, RIN–) ±8000 Air Discharge (DOUT+, DOUT–, RIN+, RIN–) ±15000 Contact Discharge (DOUT+, DOUT–, RIN+, RIN–) ±7000 UNIT V AEC Q100-002 indicates HBM stressing is done in accordance with the ANSI/ESDA/JEDEC JS-001 specification. 7.3 Recommended Operating Conditions over operating free-air temperature range (unless otherwise noted) MIN NOM MAX UNIT Supply Voltage (VDD_n) 1.71 1.8 1.89 V LVCMOS Supply Voltage (VDDIO= 1.8 V) OR 1.71 1.8 1.89 3 3.3 3.6 LVCMOS Supply Voltage (VDDIO= 3.3 V) Supply Noise (1) Power-Over-Coax Supply Noise VDD_n (1.8 V) 25 VDDIO (1.8 V) 25 VDDIO (3.3 V) 50 mVp-p ƒ = 30 Hz - 1 KHz, trise > 100 µs Measured differentially between DOUT+ and DOUT– (coax mode only) 10 mVp-p ƒ = 1 KHz - 50 MHz Measured differentially between DOUT+ and DOUT(coax mode only) 10 mVp-p Operating Free Air Temperature (TA) –40 PCLK Clock Frequency (1) V 25 25 105 °C 100 MHz Supply noise testing was done with minimum capacitors (as shown on Pin Configuration and Functions and Figure 34 on the PCB. A sinusoidal signal is AC coupled to the VDD_n (1.8 V) supply with amplitude = 25 mVp-p measured at the device VDD_n pins. Bit error rate testing of input to the Ser and output of the Des with 10-meter cable shows no error when the noise frequency on the Ser is less than 1 MHz. The Des on the other hand shows no error when the noise frequency is less than 750 kHz. Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 9 DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com 7.4 Thermal Information DS90UB914A-Q1 THERMAL METRIC (1) RHS (WQFN) UNIT 48 PINS RθJA Junction-to-ambient thermal resistance 29.7 °C/W RθJC(top) Junction-to-case (top) thermal resistance 10.9 °C/W RθJB Junction-to-board thermal resistance 6.7 °C/W ψJT Junction-to-top characterization parameter 0.1 °C/W ψJB Junction-to-board characterization parameter 6.7 °C/W RθJC(bot) Junction-to-case (bottom) thermal resistance 2.3 °C/W (1) For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application report. 7.5 Electrical Characteristics Over recommended operating supply and temperature ranges unless otherwise specified. (1) (2) (3) PARAMETER TEST CONDITIONS MIN TYP MAX UNIT LVCMOS DC SPECIFICATIONS 3.3-V I/O (DES OUTPUTS, GPIO, CONTROL INPUTS AND OUTPUTS) VIH High Level Input Voltage VIN = 3 V to 3.6 V 2 VIN VIL Low Level Input Voltage VIN = 3 V to 3.6 V GND 0.8 V IIN Input Current VIN = 0 V or 3.6 V, VIN = 3 V to 3.6 V 20 µA VOH High Level Output Voltage VDDIO = 3 V to 3.6 V, IOH = −4 mA 2.4 VDDIO V VOL Low Level Output Voltage GND 0.4 V VDDIO = 3 V to 3.6 V, IOL = 4 mA Output Short Circuit Current VOUT = 0 V IOZ TRI-STATE Output Current PDB = 0 V, VOUT = 0 V or VDD CGPIO Pin Capacitance GPIO [3:0] IOS –20 ±1 Deserializer GPO Outputs –15 LVCMOS Outputs –35 LVCMOS Outputs, GPO Outputs –20 V mA 20 1.5 µA pF LVCMOS DC SPECIFICATIONS 1.8-V I/O (DES OUTPUTS, GPIO, CONTROL INPUTS AND OUTPUTS) VIH High Level Input Voltage VIN = 1.71 V to 1.89 V 0.65 VIN VIN VIL Low Level Input Voltage VIN = 1.71 V to 1.89 V GND 0.35 VIN IIN Input Current VIN = 0 V or 1.89 V, VIN = 1.71 V to 1.89 V VOH High Level Output Voltage VDDIO = 1.71 V to 1.89 V, IOH = −4 mA VOL Low Level Output Voltage VDDIO = 1.71 V to 1.89 V IOL = 4 mA Output Short Circuit Current VOUT = 0 V IOZ TRI-STATE Output Current PDB = 0 V, VOUT = 0 V or VDD CGPIO Pin Capacitance GPIO [3:0] IOS (1) (2) (3) 10 –20 ±1 20 µA VDDIO – 0.45 VDDIO V GND 0.45 V Deserializer GPO Outputs –11 LVCMOS Outputs –17 LVCMOS Outputs, GPO Outputs V -20 mA 20 1.5 µA pF The Electrical Characteristics tables list verified specifications under the listed Recommended Operating Conditions except as otherwise modified or specified by the Electrical Characteristics Conditions and/or Notes. Typical specifications are estimations only and are not verified. Current into device pins is defined as positive. Current out of a device pin is defined as negative. Voltages are referenced to ground except VOD, ΔVOD, VTH and VTL which are differential voltages. Typical values represent most likely parametric norms at 1.8 V or 3.3 V, TA = 25°C, and at the Recommended Operation Conditions at the time of product characterization and are not verified. Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 Electrical Characteristics (continued) Over recommended operating supply and temperature ranges unless otherwise specified.(1)(2)(3) PARAMETER TEST CONDITIONS MIN TYP MAX –20 1 20 UNIT CML RECEIVER DC SPECIFICATIONS (RIN0+, RIN0–, RIN1+, RIN1– ) IIN Input Current VIN = VDD or 0 V, VDD = 1.89 V, Differential Internal Termination Resistance Differential across RIN+ and RIN– 80 100 120 Single-ended Termination Resistance RIN+ or RIN– 40 50 60 VID Differential Input Voltage Back Channel Disabled, (Figure 4) 210 mV VIN Single-Ended Input Voltage Back Channel Disabled, (Figure 4) 105 mV ƒBC Back Channel Frequency (4) 3.3 4.2 MHz VOD-BC Back Channel Differential Output Voltage 350 540 mV VOUT-BC Back Channel SingleEnded Output Voltage 182 270 mV RT µA Ω CML MONITOR OUTPUT DRIVER SPECIFICATIONS (CMLOUTP, CMLOUTN) Ew Differential Output Eye Opening (5) EH Differential Output Eye Height (4) (5) RL = 100 Ω Jitter Frequency > f/15 (Figure 9) 0.45 UI 200 mV The back channel frequency (MHz) listed is the frequency of the internal clock used to generate the encoded back channel data stream. The data rate (Mbps) of the encoded back channel stream is the back channel frequency divided by 2. UI – Unit Interval is equivalent to one ideal serialized data bit width. The UI scales with PCLK frequency. 10-bit mode: 1 UI = 1 / ( PCLK_Freq. /2 x 28 ) 12-bit HF mode: 1 UI = 1 / ( PCLK_Freq. x 2/3 x 28 ) 12-bit LF mode: 1 UI = 1 / ( PCLK_Freq. x 28 ) Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 11 DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com Electrical Characteristics (continued) Over recommended operating supply and temperature ranges unless otherwise specified.(1)(2)(3) PARAMETER TEST CONDITIONS MIN TYP MAX f = 100 MHz, 10–bit mode 22 42 f = 75 MHz, 12–bit high freq mode 19 39 f = 50 MHz, 12–bit low freq mode 16 32 f = 100 MHz, 10–bit mode 15 f = 75 MHz, 12–bit high freq mode 12 f = 50 MHz, 12–bit low freq mode 10 f = 100 MHz, 10–bit mode 42 55 f = 75 MHz, 12–bit high freq mode 37 50 f = 50 MHz, 12–bit low freq mode 25 38 f = 100 MHz, 10–bit mode 35 f = 75 MHz, 12–bit high freq mode 30 f = 50 MHz, 12–bit low freq mode 18 f = 100 MHz, 10–bit mode 15 f = 75 MHz, 12–bit high freq mode 11 f = 50 MHz, 12–bit low freq mode 16 UNIT DESERIALIZER SUPPLY CURRENT VDDIO=1.89 V CL=8 pF Worst Case Pattern VDDIO=1.89 V CL=8 pF Random Pattern VDDIO=3.6 V CL=8 pF Worst Case Pattern VDDIO= 3.6 V CL= 8 pF Random Pattern IDDIOR Deserializer (Rx) Total Supply Current (includes load current) VDDIO= 1.89 V CL= 4 pF Worst Case Pattern VDDIO= 1.89 V CL= 4 pF Random Pattern VDDIO= 3.6 V CL= 4 pF Worst Case Pattern VDDIO= 3.6 V CL= 4 pF Random Pattern 12 f = 100 MHz, 10–bit mode 8 f = 75 MHz, 12–bit high freq mode 4 f = 50 MHz, 12–bit low freq mode 9 f = 100 MHz, 10–bit mode 36 f = 75 MHz, 12–bit high freq mode 29 f = 50 MHz, 12–bit low freq mode 20 f = 100 MHz, 10–bit mode 29 f = 75 MHz, 12–bit high freq mode 22 f = 50 MHz, 12–bit low freq mode 13 Submit Documentation Feedback mA mA mA mA mA mA mA mA Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 Electrical Characteristics (continued) Over recommended operating supply and temperature ranges unless otherwise specified.(1)(2)(3) PARAMETER TEST CONDITIONS TYP MAX f = 100 MHz, 10–bit mode 64 110 f = 75 MHz, 12–bit high freq mode 67 114 f = 50 MHz, 12–bit low freq mode 63 96 f = 100 MHz, 10–bit mode 69 f = 75 MHz, 12–bit high freq mode 71 f = 50 MHz, 12–bit low freq mode 67 PDB = 0 V, All other LVCMOS Inputs=0 V VDDIO = 1.89 V Default Registers 42 900 PDB = 0 V, All other LVCMOS Inputs = 0 V VDDIO=3.6 V Default Registers 42 900 VDD_n = 1.89 V CL= 4 pF Worst Case Pattern IDDR Deserializer (Rx) VDD_n Supply Current (includes load current) VDD_n= 1.89 V CL= 4 pF Random Pattern IDDRZ IDDIORZ Deserializer (Rx) Supply Current Power Down Deserializer (Rx) VDDIO Supply Current Power Down PDB = 0 V, All other LVCMOS Inputs = 0 V VDDIO = 1.89 V VDDIO = 3.6 V MIN mA µA 8 40 360 800 Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 UNIT µA 13 DS90UB914A-Q1 SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 www.ti.com 7.6 AC Timing Specifications (SCL, SDA) - I2C-Compatible Over recommended supply and temperature ranges unless otherwise specified. (See Figure 2) MIN NOM MAX UNIT Standard Mode 100 kHz Fast Mode 400 kHz RECOMMENDED INPUT TIMING REQUIREMENTS fSCL tLOW SCL Clock Frequency SCL Low Period Standard Mode 4.7 µs Fast Mode 1.3 µs 4 µs 0.6 µs Standard Mode tHIGH SCL High Period tHD:STA Hold time for a start or a repeated start condition Standard Mode 4 µs Fast Mode 0.6 µs Set Up time for a start or a repeated start condition Standard Mode 4.7 µs Fast Mode 0.6 tSU:STA tHD:DAT tSU:DAT Data Hold Time Data Set Up Time tSU:STO Set Up Time for STOP Condition tBUF Bus Free time between Stop and Start tr tf 14 SCL & SDA Rise Time SCL & SDA Fall Time Fast Mode µs Standard Mode 0 3.45 µs Fast Mode 0 900 ns Standard Mode 250 Fast Mode 100 ns 4 µs Fast Mode 0.6 µs Standard Mode 4.7 µs Fast Mode 1.3 Standard Mode Standard Mode ns µs 1000 ns Fast Mode 300 ns Standard Mode 300 ns Fast Mode 300 ns Submit Documentation Feedback Copyright © 2016–2019, Texas Instruments Incorporated Product Folder Links: DS90UB914A-Q1 DS90UB914A-Q1 www.ti.com SNLS499D – APRIL 2016 – REVISED OCTOBER 2019 Bidirectional Control Bus DC Timing Specifications (SCL, SDA) - I2C-Compatible 7.7 Over recommended supply and temperature ranges unless otherwise specified (1) MIN NOM MAX UNIT 0.7 × VDDIO VDDIO V GND 0.3 × VDDIO V RECOMMENDED INPUT TIMING REQUIREMENTS VIH Input High Level VIL Input Low Level VHY Input Hysteresis VOL Output Low Level (2) IIN Input Current tR SDA Rise Time-READ tF SDA Fall Time-READ SDA and SCL SDA and SCL >50 0 0.36 SDA, VDDIO = 3.3 V, IOL= 1.6 mA 0 0.4 −10 SDA or SCL, VIN= VDDIO OR GND SDA, RPU = 10 kΩ, Cb ≤ 400 pF (Figure 2) tSP CIN (1) (2) mV SDA, VDDIO = 1.8 V, IOL= 0.9 mA SDA or SCL V 10 µA 430 ns 20 ns 50 ns
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DS90UB914ATRHSTQ1
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