DS90UR916QSQX/NOPB

DS90UR916Q www.ti.com SNOSB46E – MARCH 2011 – REVISED APRIL 2013 DS90UR916Q 5 - 65 MHz 24-bit Color FPD-Link II Deserializer with Image Enhancement Check for Samples: DS90UR916Q FEATURES DESCRIPTION • The DS90UR916Q FPD-Link II deserializer operates with the DS90UR905Q FPD-Link II serializer to deliver 24-bit digital video data over a single differential pair. The DS90UR916Q provides features designed to enhance image quality at the display. The high speed serial bus scheme of FPD-Link II greatly eases system design by eliminating skew problems between clock and data, reduces the number of connector pins, reduces the interconnect size, weight, and cost, and overall eases PCB layout. In addition, internal DC balanced decoding is used to support AC-coupled interconnects. 1 2 • • • • • • • • • • • • • • • 5 – 65 MHz PCLK support (140 Mbps – 1.82 Gbps) RGB888 + VS, HS, DE Support Image Enhancement - White Balance LUTs and Adaptive Hi-FRC Dithering AC Coupled STP Interconnect Cable up to 10 Meters @ Speed Link BIST Mode and Reporting Pin I2C Compatible Serial Control Bus Power Down Mode Minimizes Power Dissipation 1.8V or 3.3V Compatible LVCMOS I/O Interface Automotive Grade Product: AEC-Q100 Grade 2 Qualified >8 kV HBM and ISO 10605 ESD Rating FAST Random Ddata Lock; No Reference Clock Required Adjustable Input Receiver Equalization LOCK (Real Time Link Status) Reporting Pin EMI Minimization on Output Parallel Bus (SSCG) Output Slew Control (OS) Backward Compatible Mode for Operation with Older Generation Devices APPLICATIONS • • Automotive Display for Navigation Automotive Display for Entertainment The DS90UR916Q Des (deserializer) recovers the data (RGB) and control signals and extracts the clock from the serial stream. The Des locks to the incoming serial data stream without the use of a training sequence or special SYNC patterns, and does not require a reference clock. A link status (LOCK) output signal is provided. The DS90UR916Q is ideally suited for 24-bit color applications. White balance lookup tables and adaptive Hi-FRC dithering provide the user a cost-effective means to enhance display image quality. Serial transmission is optimized with user selectable receiver equalization. EMI is minimized by the use of low voltage differential signaling, output slew control, and the Des may be configured to generate Spread Spectrum Clock and Data on its parallel outputs. The DS90UR916Qis offered in a 60-pin WQFN package. It is specified over the automotive AECQ100 grade 2 temperature range of -40°C to +105°C. 1 2 Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet. All trademarks are the property of their respective owners. PRODUCTION DATA information is current as of publication date. Products conform to specifications per the terms of the Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters. Copyright © 2011–2013, Texas Instruments Incorporated DS90UR916Q SNOSB46E – MARCH 2011 – REVISED APRIL 2013 www.ti.com Applications Diagram VDDn HOST Graphics Processor RGB Digital Display Interface VDDn VDDIO (1.8V or 3.3V) 1.8V FPD-Link II 1 Pair / AC Coupled R[7:0] G[7:0] B[7:0] HS VS DE PCLK PDB 100 nF 100 nF DOUT+ RIN+ DOUT- RIN100 ohm STP Cable DS90UR905Q Serializer DS90UR916Q Deserializer CMF PDB CONFIG [1:0] BISTEN RFB VODSEL SCL DeEmph SDA Optional ID[x] BISTEN Optional VDDIO 1.8V (1.8V or 3.3V) SCL SDA ID[x] R[7:0] G[7:0] B[7:0] HS VS DE PCLK RGB Display QVGA to XGA 24-bit or 18-bit dithered color depth LOCK PASS STRAP pins not shown DAP DAP Figure 1. Block Diagrams BISTEN PDB SCL SCA ID[x] Timing and Control 24 Output Latch FRC Dithering 2 RIN- White Balance LUT RIN+ FRC Dithering 1 Serial to Parallel CMF DC Balance Decoder SSCG RGB [7:0] HS VS DE Error Detector PASS Clock and Data Recovery PCLK LOCK STRAP INPUT CONFIG [1:0] LF_MODE OS_PCLK/DATA OSS_SEL RFB EQ [3:0] OSC_SEL [2:0] SSC [3:0] MAPSEL [1:0] STRAP INPUT OP_LOW DS90UR916Q ± DESERIALIZER Figure 2. 2 Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q DS90UR916Q www.ti.com SNOSB46E – MARCH 2011 – REVISED APRIL 2013 NC BISTEN VDDR PASS/OP_LOW R[0]/MAP_SEL[0] R[1]/MAP_SEL[1] R[2] VDDIO R[3]/SSC[0] R[4]/SSC[1] R[5]/SSC[2] R[6]/SSC[3] R[7] LOCK NC 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 DS90UR916Q Pin Diagram NC 46 30 NC RES 47 29 VDDL VDDIR 48 28 G[0]/OSC_SEL[0] RIN+ 49 27 G[1]/OSC_SEL[1] RIN- 50 26 G[2]/OSC_SEL[2] CMF 51 25 G[3] CMLOUTP 52 24 VDDIO CMLOUTN 53 TOP VIEW 23 G[4]/EQ[0] VDDCMLO 54 DAP = GND 22 G[5]/EQ[1] VDDR 55 21 G[6]/EQ[2] ID[x] 56 20 G[7]/EQ[3] VDDPR 57 19 B[0] VDDSC 58 18 B[1]/RFB PDB 59 17 B[2]/OSS_SEL NC 60 16 NC DS90UR916Q 4 5 6 7 8 9 10 11 12 13 14 VDDSC PCLK DE VS HS B[7]/CONFIG[0] B[6]/CONFIG[1] B[5]/OS_PCLK B[4]/LF_MODE VDDIO B[3]/OS_DATA NC 15 3 2 SDA SCL 1 NC BOLD PIN NAME ± indicates I/O strap pin associated with output pin Figure 3. Deserializer - DS90UR916Q — Top View Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q 3 DS90UR916Q SNOSB46E – MARCH 2011 – REVISED APRIL 2013 www.ti.com DS90UR916Q Deserializer Pin Descriptions (1) Pin Name Pin # I/O, Type Description LVCMOS Parallel Interface R[7:0] 33, 34, 35, 36, 37, 39, 40, 41 I, STRAP, O, LVCMOS RED Parallel Interface Data Output Pins (MSB = 7, LSB = 0) In power-down (PDB = 0), outputs are controlled by the OSS_SEL (See Table 5). These pins are inputs during power-up (See STRAP Inputs). G[7:0] 20, 21, 22, 23, 25, 26, 27, 28 I, STRAP, O, LVCMOS GREEN Parallel Interface Data Output Pins (MSB = 7, LSB = 0) In power-down (PDB = 0), outputs are controlled by the OSS_SEL (See Table 5). These pins are inputs during power-up (See STRAP Inputs). B[7:0] 9, 10, 11, 12, 14, 17, 18, 19 I, STRAP, O, LVCMOS BLUE Parallel Interface Data Output Pins (MSB = 7, LSB = 0) In power-down (PDB = 0), outputs are controlled by the OSS_SEL (See Table 5). These pins are inputs during power-up (See STRAP Inputs). HS 8 O, LVCMOS Horizontal Sync Output In power-down (PDB = 0), output is controlled by the OSS_SEL pin (See Table 5). Video control signal pulse width must be 3 PCLKs or longer to be transmitted when the Control Signal Filter is enabled (CONFIG[1:0] = 01). There is no restriction on the minimum transition pulse when the Control Signal Filter is disabled (CONFIG[1:0] = 00). The signal is limited to 2 transitions per 130 PCLKs. VS 7 O, LVCMOS Vertical Sync Output In power-down (PDB = 0), output is controlled by the OSS_SEL pin (See Table 5). Video control signal is limited to 1 transition per 130 PCLKs. Thus, the minimum pulse width is 130 PCLKs. DE 6 O, LVCMOS Data Enable Output In power-down (PDB = 0), output is controlled by the OSS_SEL pin (See Table 5). Video control signal pulse width must be 3 PCLKs or longer to be transmitted when the Control Signal Filter is enabled (CONFIG[1:0] = 01). There is no restriction on the minimum transition pulse when the Control Signal Filter is disabled (CONFIG[1:0] = 00). The signal is limited to 2 transitions per 130 PCLKs. PCLK 5 O, LVCMOS Pixel Clock Output In power-down (PDB = 0), output is controlled by the OSS_SEL pin (See Table 5). Strobe edge set by RFB function. LOCK 32 O, LVCMOS LOCK Status Output LOCK = 1, PLL is Locked, outputs are active LOCK = 0, PLL is unlocked, RGB[7:0], HS, VS, DE and PCLK output states are controlled by OSS_SEL (See Table 5). May be used as Link Status or to flag when Video Data is active (ON/OFF). PASS 42 O, LVCMOS PASS Output (BIST Mode) PASS = 1, error free transmission PASS = 0, one or more errors were detected in the received payload Route to test point for monitoring, or leave open if unused. Control and Configuration — STRAP PINS For a High State, use a 10 kΩ pull up to VDDIO; for a Low State, the IO includes an internal pull down. The STRAP pins are read upon power-up and set device configuration. Pin Number listed along with shared RGB Output name in square brackets. CONFIG[1:0] 10 [B6], 9 [B7] STRAP I, LVCMOS w/ pull-down Operating Modes — Pin or Register Control These pins determine the DS90UR916’s operating mode and interfacing device. CONFIG[1:0] = 00: Interfacing to DS90UR905, Control Signal Filter DISABLED CONFIG[1:0] = 01: Interfacing to DS90UR905, Control Signal Filter ENABLED CONFIG[1:0] = 10: Interfacing to DS90UR241 CONFIG[1:0] = 11: Interfacing to DS90C241 LF_MODE 12 [B4] STRAP I, LVCMOS w/ pull-down SSCG Low Frequency Mode — Pin or Register Control Only required when SSCG is enabled, otherwise LF_MODE condition is a DON’T CARE (X). LF_MODE = 1, SSCG in low frequency mode (PCLK = 5-20 MHz) LF_MODE = 0, SSCG in high frequency mode (PCLK = 20-65 MHz) OS_PCLK 11 [B5] STRAP I, LVCMOS w/ pull-down PCLK Output Slew Select — Pin or Register Control OS_PCLK = 1, increased PCLK slew OS_PCLK = 0, normal (default) OS_DATA 14 [B3] STRAP I, LVCMOS w/ pull-down Data Output Slew Select — Pin or Register Control OS_DATA = 1, increased DATA slew OS_DATA = 0, normal (default) (1) 4 1 = HIGH, 0 = LOW. Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q DS90UR916Q www.ti.com SNOSB46E – MARCH 2011 – REVISED APRIL 2013 DS90UR916Q Deserializer Pin Descriptions(1) (continued) Pin Name Pin # I/O, Type OP_LOW 42 PASS STRAP I, LVCMOS w/ pull-down Description Outputs held Low when LOCK = 1 — Pin or Register Control NOTE: IT IS NOT RECOMMENDED TO USE ANY OTHER STRAP OPTIONS WITH THIS STRAP FUNCTION OP_LOW = 1: all outputs are held LOW during power up until released by programming OP_LOW release/set register HIGH NOTE: Before the device is powered up, the outputs are in tri-state. See Figure 23 and Figure 24. OP_LOW = 0: all outputs toggle normally as soon as LOCK goes HIGH (default). OSS_SEL 17 [B2] STRAP I, LVCMOS w/ pull-down Output Sleep State Select — Pin or Register Control NOTE: OSS_SEL STRAP CANNOT BE USED IF OP_LOW =1 OSS_SEL is used in conjunction with PDB to determine the state of the outputs when inactive. (See Table 5). RFB 18 [B1] STRAP I, LVCMOS w/ pull-down Pixel Clock Output Strobe Edge Select — Pin or Register Control RFB = 1, parallel interface data and control signals are strobed on the rising clock edge. RFB = 0, parallel interface data and control signals are strobed on the falling clock edge. EQ[3:0] 20 [G7], 21 [G6], 22 [G5], 23 [G4] STRAP I, LVCMOS w/ pull-down Receiver Input Equalization — Pin or Register Control (See Table 2). OSC_SEL[2:0] 26 [G2], 27 [G1], 28 [G0] STRAP I, LVCMOS w/ pull-down Oscillator Select — Pin or Register Control (See Table 6 and Table 7). SSC[3:0] 34 [R6], 35 [R5], 36 [R4], 37 R[3] STRAP I, LVCMOS w/ pull-down Spread Spectrum Clock Generation (SSCG) Range Select — Pin or Register Control (See Table 3 and Table 4). MAP_SEL[1:0] 40 [R1], 41 [R0] STRAP I, LVCMOS w/ pull-down Bit Mapping Backward Compatibility / DS90UR241 Options — Pin or Register Control Normal setting to b'00. See (Table 8). Power Down Mode Input PDB = 1, Des is enabled (normal operation). Refer to POWER UP REQUIREMENTS AND PDB PIN in the Applications Information Section. PDB = 0, Des is in power-down. When the Des is in the power-down state, the LVCMOS output state is determined by Table 5. Control Registers are RESET. Control and Configuration PDB 59 I, LVCMOS w/ pull-down ID[x] 56 I, Analog SCL 3 I, LVCMOS SDA 2 I/O, LVCMOS Serial Control Bus Data Input / Output - Optional Open Drain SDA requires an external pull-up resistor to VDDIO. BISTEN 44 I, LVCMOS w/ pull-down BIST Enable Input — Optional BISTEN = 1, BIST is enabled BISTEN = 0, BIST is disabled RES 47 I, LVCMOS w/ pull-down Reserved - tie LOW NC 1, 15, 16, 30, 31, 45, 46, 60 Serial Control Bus Device ID Address Select — Optional Resistor to Ground and 10 kΩ pull-up to 1.8V rail. (See Table 9). Serial Control Bus Clock Input - Optional SCL requires an external pull-up resistor to VDDIO. Not Connected Leave pin open (float) Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q 5 DS90UR916Q SNOSB46E – MARCH 2011 – REVISED APRIL 2013 www.ti.com DS90UR916Q Deserializer Pin Descriptions(1) (continued) Pin Name Pin # I/O, Type Description FPD-Link II Serial Interface RIN+ 49 I, LVDS True Input. The input must be AC Coupled with a 100 nF capacitor. RIN- 50 I, LVDS Inverting Input. The input must be AC Coupled with a 100 nF capacitor. CMF 51 I, Analog Common-Mode Filter VCM center-tap is a virtual ground which may be ac-coupled to ground to increase receiver common mode noise immunity. Recommended value is 4.7 μF or higher. CMLOUTP 52 O, LVDS Test Monitor Pin — EQ Waveform NC or connect to test point. Requires Serial Bus Control to enable. CMLOUTN 53 O, LVDS Test Monitor Pin — EQ Waveform NC or connect to test point. Requires Serial Bus Control to enable. Power and Ground (2) VDDL 29 Power Logic Power, 1.8 V ±5% VDDIR 48 Power Input Power, 1.8 V ±5% VDDR 43, 55 Power RX High Speed Logic Power, 1.8 V ±5% VDDSC 4, 58 Power SSCG Power, 1.8 V ±5% VDDPR 57 Power PLL Power, 1.8 V ±5% VDDCMLO 54 Power RX High Speed Logic Power, 1.8 V ±5% 13, 24, 38 Power LVCMOS I/O Power, 1.8 V ±5% OR 3.3 V ±10% (VDDIO) DAP Ground 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 9 vias. VDDIO GND (2) 6 The VDD (VDDn and VDDIO) supply ramp should be faster than 1.5 ms with a monotonic rise. If slower then 1.5 ms then a capacitor on the PDB pin is needed to ensure PDB arrives after all the VDD have settled to the recommended operating voltage. Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q DS90UR916Q www.ti.com SNOSB46E – MARCH 2011 – REVISED APRIL 2013 These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam during storage or handling to prevent electrostatic damage to the MOS gates. Absolute Maximum Ratings (1) (2) −0.3V to +2.5V Supply Voltage – VDDn (1.8V) −0.3V to +4.0V Supply Voltage – VDDIO −0.3V to +(VDDIO + 0.3V) LVCMOS I/O Voltage −0.3V to (VDD + 0.3V) Receiver Input Voltage Junction Temperature +150°C Storage Temperature −65°C to +150°C 60L WQFN Package Maximum Power Dissipation Capacity at 25°C 470mW 470mW Derate above 25C 1/θJA mW / °C θJA(based on 9 thermal vias) 24.6 °C/W θJC(based on 9 thermal vias) 2.8 °C/W ESD Rating (HBM) ≥±8 kV ESD Rating (CDM) ≥±1 kV ≥±250 V ESD Rating (MM) ESD Rating (ISO10605), RD = 2kΩ, CS = 150pF or RD = 2kΩ, CS = 330pF or RD = 330Ω, CS = 150pF Air Discharge (RIN+, RIN−) ≥±30 kV Contact Discharge (RIN+, RIN−) ≥±10 kV ESD Rating (ISO10605), RD = 330Ω, CS = 330pF Air Discharge (RIN+, RIN−) ≥±15 kV Contact Discharge (RIN+, RIN−) ≥±10 kV ESD Rating (IEC 61000–4–2), RD = 330Ω, CS = 150pF Air Discharge (RIN+, RIN−) ≥±25 kV Contact Discharge (RIN+, RIN−) ≥±10 kV For soldering specifications see product folder at www.ti.com and SNOA549 (1) (2) “Absolute Maximum Ratings” indicate limits beyond which damage to the device may occur, including inoperability and degradation of device reliability and/or performance. Functional operation of the device and/or non-degradation at the Absolute Maximum Ratings or other conditions beyond those indicated in the Recommended Operating Conditions is not implied. The Recommended Operating Conditions indicate conditions at which the device is functional and the device should not be operated beyond such conditions. If Military/Aerospace specified devices are required, please contact the Texas Instruments Sales Office/ Distributors for availability and specifications. Recommended Operating Conditions Min Nom Max Units Supply Voltage (VDDn) 1.71 1.8 1.89 V LVCMOS Supply Voltage (VDDIO) 1.71 1.8 1.89 V LVCMOS Supply Voltage (VDDIO) 3.0 3.3 3.6 V Operating Free Air Temperature (TA) −40 +25 +105 °C 65 MHz 50 mVP-P OR PCLK Clock Frequency 5 Supply Noise (1) (1) Supply noise testing was done with minimum capacitors on the PCB. A sinusoidal signal is AC coupled to the VDDn (1.8V) supply with amplitude = 100 mVp-p measured at the device VDDn 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 750 kHz. The Des on the other hand shows no error when the noise frequency is less than 400 kHz. Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q 7 DS90UR916Q SNOSB46E – MARCH 2011 – REVISED APRIL 2013 www.ti.com Deserializer DC Electrical Characteristics (1) (2) (3) Over recommended operating supply and temperature ranges unless otherwise specified. Symb ol Parameter Conditions Pin/Freq. Min Typ Max Units 3.3 V I/O LVCMOS DC SPECIFICATIONS – VDDIO = 3.0 to 3.6V VIH High Level Input Voltage VIL Low Level Input Voltage IIN Input Current PDB, BISTEN VIN = 0V or VDDIO 2.2 VDDIO V GND 0.8 V +15 μA −15 ±1 2.4 VDDIO GND VOH High Level Output Voltage IOH = −2 mA, OS_PCLK/DATA = L R[7:0], G[7:0], B[7:0], HS, VS, DE, PCLK, LOCK, PASS VOL Low Level Output Voltage IOL = +2 mA, OS_PCLK/DATA = L R[7:0], G[7:0], B[7:0], HS, VS, DE, PCLK, LOCK, PASS Output Short Circuit Current VDDIO = 3.3V VOUT = 0V, OS_PCLK/DATA = L/H PCLK 36 mA Output Short Circuit Current VDDIO = 3.3V VOUT = 0V OS_PCLK/DATA = L/H Des Outputs 37 mA TRI-STATE® Output Current PDB = 0V, OSS_SEL = 0V, VOUT = 0V or VDDIO Outputs IOS IOZ V 0.4 V −15 +15 µA 1.235 VDDIO V 1.8 V I/O LVCMOS DC SPECIFICATIONS – VDDIO = 1.71 to 1.89V VIH High Level Input Voltage VIL Low Level Input Voltage IIN Input Current VIN = 0V or VDDIO VOH High Level Output Voltage IOH = −2 mA, OS_PCLK/DATA = L VOL Low Level Output Voltage IOL = +2 mA, OS_PCLK/DATA = L Output Short Circuit Current VDDIO = 1.8V VOUT = 0V OS_PCLK/DATA = L/H PCLK 18 mA Output Short Circuit Current VDDIO = 1.8V VOUT = 0V OS_PCLK/DATA = L/H Des Outputs 18 mA IOZ TRI-STATE® Output Current PDB = 0V, OSS_SEL = 0V, VOUT = 0V or VDDIO Outputs VTH Differential Input Threshold High Voltage IOS VTL Differential Input Threshold Low Voltage VCM Common Mode Voltage, Internal VBIAS IIN Input Current RT Internal Termination Resistor (1) (2) (3) 8 PDB, BISTEN GND −15 VDDIO R[7:0], G[7:0], − 0.45 B[7:0], HS, VS, DE, PCLK, LOCK, GND PASS ±1 0.595 V +15 μA VDDIO V 0.45 -15 +15 V µA +50 mV −50 mV VCM = +1.2V (Internal VBIAS) RIN+, RINVIN = 0V or VDDIO 1.2 -15 80 100 V +15 µA 120 Ω 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 VDD = 3.3V, Ta = +25 degC, and at the Recommended Operation Conditions at the time of product characterization and are not ensured. The Electrical Characteristics tables list ensured 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 ensured. Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q DS90UR916Q www.ti.com SNOSB46E – MARCH 2011 – REVISED APRIL 2013 Deserializer DC Electrical Characteristics(1)(2)(3) (continued) Over recommended operating supply and temperature ranges unless otherwise specified. Symb ol Parameter Conditions Pin/Freq. Min Typ Max Units CML DRIVER OUTPUT DC SPECIFICATIONS – EQ TEST PORT VOD Differential Output Voltage RL = 100Ω VOS Offset Voltage Single-ended RL = 100Ω RT Internal Termination Resistor CMLOUTP, CMLOUTN 80 542 mV 1.4 V 100 120 Ω 93 110 mA 33 45 mA 62 75 mA 40 3000 µA 5 50 µA 10 100 µA SUPPLY CURRENT IDD1 IDDIO1 Deserializer Supply Current (includes load current) Checker Board Pattern, OS_PCLK/DATA = H, EQ = 001, SSCG=ON,CMLOUTP/N enabled CL = 4pF, Figure 4 Deserializer Supply Current Power Down PDB = 0V, All other LVCMOS Inputs = 0V VDD= 1.89V VDDIO = 3.6V VDD= 1.89V IDDZ IDDIOZ All VDD pins VDDIO=1.89V VDDIO=1.89V VDDIO = 3.6V VDDIO All VDD pins VDDIO Deserializer Switching Characteristics Over recommended operating supply and temperature ranges unless otherwise specified. Symbol Parameter tRCP PCLK Output Period tRDC PCLK Output Duty Cycle tCLH LVCMOS Low-to-High Transition Time, Figure 5 tCHL LVCMOS High-to-Low Transition Time, Figure 5 tROS tROH Min Typ Max Units PCLK Pin/Freq. 15.38 T 200 ns PCLK 43 50 57 % SSCG=ON, 5–20MHz 35 59 65 % SSCG=ON, 20–65MHz 40 53 60 % SSCG=OFF, 5–65MHz VDDIO = 1.8V CL = 4 pF (lumped load) PCLK/RGB[7:0], HS, VS, DE VDDIO = 1.8V CL = 4 pF (lumped load) Data Valid after PCLK – Hold Time, Figure 9 VDDIO = 1.71 to 1.89V or 3.0 to 3.6V CL = 4 pF (lumped load) RGB[7:0], HS, VS, DE Deserializer Lock Time, Figure 8 tDD Des Delay - Latency, Figure 6 tDPJ (2) Des Period Jitter 2.0 ns 1.6 ns 1.5 ns 0.27 0.45 T 0.4 0.55 T VDDIO = 3.3V CL = 4 pF (lumped load) RGB[7:0], HS, VS, DE Horizontal Blanking Time ns PCLK/RGB[7:0], HS, VS, DE VDDIO = 1.71 to 1.89V or 3.0 to 3.6V CL = 4 pF (lumped load) tDDLT 2.1 VDDIO = 3.3V CL = 4 pF (lumped load) Data Valid before PCLK – Set Up Time, Figure 9 tHBLANK (1) (2) (3) (4) Conditions HS SSC[3:0] = 0000 (OFF) (1) SSC[3:0] = 0000 (OFF) (1) PCLK = 5 MHz 6 tRCP 3 ms PCLK = 65MHz 4 ms SSC[3:0] = ON (1) PCLK = 5MHz 30 ms SSC[3:0] = ON (1) PCLK = 65MHz 6 ms 139*T 140*T ns SSC[3:0] = OFF (3) (4) PCLK = 5 MHz 975 1700 ps PCLK = 10 MHz 500 1000 ps PCLK = 65 MHz 550 1250 ps tPLD and tDDLT is the time required by the serializer and deserializer to obtain lock when exiting power-down state with an active PCLK. Specification is ensured by design and is not tested in production. tDPJ is the maximum amount the period is allowed to deviate over many samples. Specification is ensured by characterization and is not tested in production. Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q 9 DS90UR916Q SNOSB46E – MARCH 2011 – REVISED APRIL 2013 www.ti.com Deserializer Switching Characteristics (continued) Over recommended operating supply and temperature ranges unless otherwise specified. Symbol tDCCJ tRJIT (2) Parameter Des Cycle-to-Cycle Jitter Des Input Jitter Tolerance, Figure 11 Conditions SSC[3:0] = OFF EQ = OFF, SSCG = OFF, PCLK = 65MHz (4) (5) Pin/Freq. Min Typ Max Units PCLK = 5 MHz 675 1150 ps PCLK = 10 MHz 375 900 ps PCLK = 65 MHz 500 1150 for jitter freq < 2MHz 0.9 UI (6) for jitter freq > 6MHz 0.5 UI ps BIST Mode tPASS BIST PASS Valid Time, BISTEN = 1, Figure 12 1 10 ns SSCG Mode fDEV Spread Spectrum Clocking Deviation Frequency PCLK = 5 to 65 MHz, SSC[3:0] = ON ±0.5 ±2 % fMOD Spread Spectrum Clocking Modulation Frequency PCLK = 5 to 65 MHz, SSC[3:0] = ON 8 100 kHz (5) (6) 10 tDCCJ is the maximum amount of jitter between adjacent clock cycles. UI – Unit Interval is equivalent to one serialized data bit width (1UI = 1 / 28*PCLK). The UI scales with PCLK frequency. Submit Documentation Feedback Copyright © 2011–2013, Texas Instruments Incorporated Product Folder Links: DS90UR916Q DS90UR916Q www.ti.com SNOSB46E – MARCH 2011 – REVISED APRIL 2013 Recommended Timing for the Serial Control Bus Over +3.3V supply and temperature ranges unless otherwise specified. Symbol fSCL tLOW tHIGH tHD;STA tSU:STA tHD;DAT tSU;DAT Parameter SCL Clock Frequency Conditions Min Typ Max Units Standard Mode >0 100 kHz Fast Mode >0 400 kHz Standard Mode 4.7 us Fast Mode 1.3 us Standard Mode 4.0 us Fast Mode 0.6 us Hold time for a start or a repeated start condition, Figure 13 Standard Mode 4.0 us Fast Mode 0.6 us Set Up time for a start or a repeated start condition, Figure 13 Standard Mode 4.7 us Fast Mode 0.6 us Data Hold Time, Figure 13 Standard Mode 0 3.45 us Fast Mode 0 0.9 us SCL Low Period SCL High Period Standard Mode 250 ns Fast Mode 100 ns Set Up Time for STOP Condition, Figure 13 Standard Mode 4.0 us Fast Mode 0.6 us Bus Free Time Between STOP and START, Figure 13 Standard Mode 4.7 us Fast Mode 1.3 tr SCL & SDA Rise Time, Figure 13 Standard Mode 1000 ns Fast Mode 300 ns tf SCL & SDA Fall Time, Figure 13 Standard Mode 300 ns Fast mode 300 ns tSU;STO tBUF Data Set Up Time, Figure 13 us DC and AC Serial Control Bus Characteristics Over 3.3V supply and temperature ranges unless otherwise specified. Max Units VIH Symbol Input High Level Parameter SDA and SCL Conditions Min 2.2 Typ VDDIO V VIL Input Low Level Voltage SDA and SCL GND 0.8 V VHY Input Hysteresis >50 VOL SDA, IOL = 1.25mA Iin SDA or SCL, Vin = VDDIO or GND SDA, RPU = X, Cb ≤ 400pF mV 0 0.4 V -15 +15 µA tR SDA RiseTime – READ 40 ns tF SDA Fall Time – READ 25 ns tSU;DAT Set Up Time — READ 520 ns tHD;DAT Hold Up Time — READ 55 ns tSP Input Filter 50 ns Cin Input Capacitance