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| CXA2056Q Digital CCD Camera Head Amplifier Description The CXA2056Q is a bipolar IC developed as a head amplifier for digital CCD cameras. This IC provides the following functions: correlated double sampling, AGC for the CCD signal, GCA for the lowband chroma signal, AMP for high-band chroma and line signals, A/D sample and hold, blanking, A/D reference voltage, and an output driver. Features * High sensitivity made possible by a high-gain AGC amplifier * Blanking function provided for the purpose of calibrating the CCD output signal black level * Regulator output pin provided for A/D converter reference voltage * Built-in GCA and AMP for amplifying video signals (chroma and line signals) from external sources * Built-in sample-and-hold circuits for camera signals required by external A/D converters Absolute Maximum Ratings * Supply voltage VCC * Operating temperature Topr * Storage temperature Tstg * Allowable power dissipation PD Operating Conditions Supply voltage VCC1, 2, 3 Applications Digital CCD cameras Structure Bipolar silicon monolithic IC 32 pin QFP (Plastic) 11 -20 to +75 -65 to +150 1160 V C C mW 3 to 3.3 V Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. -1- E96119A8X-PS CXA2056Q Block Diagram and Pin Configuration CCDLEVEL CLPDM GND1 SHD SHP VCC1 AGCCONT 24 23 22 21 20 BUF 19 18 17 SH1 PIN 25 SH2 AGC SH3 DC SHIFT OBSW 15 CLPOB CAM SH 14 XRS 16 AGCCLP DMSW1 DIN 26 CDS CLP1 VCC2 27 DMSW2 BLK SW VREF ICONT 28 LIN CLP AGC CLP CDS CLP2 N.C 13 OFFSET CAM DRV VIDC SHIFT CVSW 12 PBLK LISW LIN/CH 29 CH SW VB OFFSET GND2 30 LIN CH AMP VSI 2 VISW 1 3 VRT 11 VIDEO DRV VRT DRV VRB DRV 10 VRT RFCONT 31 VCENT VRB LOUT CLP VB VRB LOSW PBRFC 32 VS2 CL GCA VCENT VCENT VB 9 VCC3 MODE CONTROL & POWER SAVE CONTROL 1 2 3 4 5 6 7 8 LOUTCLP MODE2 MODE1 GND3 N.C PS -2- DRVOUT MODE3 CXA2056Q Pin Description Pin No. Symbol Pin voltage Equivalent circuit (VCC1, 2, 3 = 3V) Description Camera and video signal selector. Composite video signal and high-band chroma/low-band chroma signal selector of the video signal. For details on the selection conditions for each mode, refer to the diagram of the Electrical Characteristics Measurement Circuit. Power saving mode. No connection; normally ground. GND Ground. 1 MODE1 75k 50k 2 MODE2 1 145 VTH = 1.5V 2 3 4 10A 1.5V 50k 3 MODE3 4 5 17 6 23 30 PS N.C GND3 GND1 GND2 38k 100A 100A 1k 7 LOUTCLP Approx. 1.1V 1.1V 22k 12k 7 145 90k 2A Capacitor connection for LOUTCLP which clamps the output minimum level in modes which pass the composite video signal. (Recommended value: 0.1F) -3- CXA2056Q Pin No. Symbol Pin voltage Equivalent circuit Description IOFFSET 25A 200A 25A 8 * Camera mode (CAM) VRB to VRB + 100mV * Composite video mode (LIN) VRB + 50mV = approx. DRVOUT 1.4V * Chroma mode (CH, CL) Center voltage = (VRT - VRB)/2 = approx. 1.85V 0 to 50A SW1 Driver output for A/D converter capable of DC coupling. Dynamic range = 1Vp-p Mode SW1 SW2 SW3 2k SW1 50A VRT = 2.35V 5090 1.85V 4072 30k 1.4 509 SW3 VRB = 1.35V 100A 50A ICONT 3.2 to 6.4mA 2.4mA 145 30k SW2 SW1 CAM LIN 1 0 0 1 1 0 1 0 CH, CL 0 8 VIDEO signal 10p CAM signal 48 0: Open 1: Closed 9 20 27 VCC3 VCC1 VCC2 VCC Power supply. 1.35V regulator output. Be sure to decouple this pin near the IC pins to prevent the oscillation and external noise when this pin is not used. (Recommended capacitor value: 4.7F) 2.35V regulator output. Be sure to decouple this pin near the IC pins to prevent the oscillation and external noise when this pin is not used. (Recommended capacitor value: 4.7F) 200 16.5k 145 10 VRB 1.35V 1.35V 10 13.5k 110A 30k 30k 6.5k 145 2.35V 11 23.5k 55 200 55 220 11 VRT 2.35V -4- CXA2056Q Pin No. Symbol Pin voltage 50k Equivalent circuit 50k Description 30k 2k Controls the output offset during camera mode. When 3V: VRB When 1.5V: VRB + 100mV When 0V (preset mode): VRB + 35mV 12 OFFSET 1.5 to 3V & 0V 1.85V 1.5k 3k 25k 30k VRB 50A 145 50A 50A 12 30k Camera signal preblanking pulse input. 145 VTH = 1.85V 13 PBLK 1.85V 30k 13 30k 50A Active: Low Active when Low only during camera mode. Calibrates the black level of the AGC output waveform. When PBLK is Low, the DRVOUT potential is forced to VRB. 40A 770A 145 VTH = 0.68V 14 XRS 0.68V 24k 14 Camera signal sample-and-hold pulse input. 7k Sampling 97 30k VTH = 1.5V 15 CLPOB 1.5V 30k 145 15 30k Active: Low 50A Clamp pulse used to clamp the optical black portion of the camera signal after it passes through the AGC amplifier. -5- CXA2056Q Pin No. Symbol Pin voltage Equivalent circuit Description 5k 5k 3k 145 16 AGCCLP Approx. 1.3V 145 16 AGC clamp capacitor. (Recommended value: 0.1F) 50k 3k 3.3k 3.3k 145 AGC gain control. 18 18 AGCCONT 1.5 to 3.0V 3.4k 2.14V 3.4k 3.4k 2.29V 3.4k When 1.5V: -1dB (Minimum gain) When 3.0V: +31.5dB (Maximum gain) ICONT 300A 100A 300A 100A 200A 200A 100A 19 DIN input CCD signal CCDLEVEL black level: approx. 2.2V 19 500 Enables monitoring of the SH3 output camera signal. 340 21 SHP VTH = 0.65V 20A 36k 365A 145 21 Preset level sampleand-hold pulse input. 0.65V 22 10k 22 SHD Sampling Data level sampleand-hold pulse input. -6- CXA2056Q Pin No. Symbol Pin voltage Equivalent circuit Description VTH = 1.5V 24 CLPDM 1.5V 30k 145 24 30k Clamp pulse used to clamp the dummy pixel portion of the input CCD signal. Active: Low 50A 145 25 15A 15A 23k 14k 7k 2k 25 26 PIN DIN Black level: approx. 2.1V 26 145 CCD signal input. 2k 200A 50A 15k 145 2.25V 28 6k 45k 6k DRVOUT output waveform rise time control. When 1.5V: Maximum rise time When 3V: Minimum rise time 28 ICONT 1.5 to 3V 100A 25A 145 29 29 LIN/CH Clamp potential during LIN mode: approx. 1.46V During CH mode: approx. 1.85V 1.85V 50A 10k 54k 11.5k 30k Common input for the composite video signal (LIN) and highband chroma signal (CH). 18.5k CH mode 200A 100A LIN mode 2A VRB + 50mV -7- CXA2056Q Pin No. Symbol Pin voltage Equivalent circuit Description 27k 145 54k 31 42k Gain control for the low-band chroma signal (CL). When 0.3V: -4dB (Minimum gain) When 2.7V: +12.5dB (Maximum gain) 31 RFCONT 0.3 to 2.7V 27k 2k 2.9V 145 32 7.8k 10k 58k 32 PBRFC Approx. 1.9V 22k 1.9V 38k 100A 200A 10k 200A Low-band chroma signal (CL) input. 25A -8- CXA2056Q Electrical Characteristics Item Camera mode Symbol IDC Conditions AGCCONT = 1.5V, open between VRT and VRB MODE1 = 3V, MODE2 = 0V MODE3 = 0V, PS = 3V, ICONT = 3V Open between VRT and VRB MODE1 = 0V, MODE2 = 0V, MODE3 = 0V, PS = 3V Open between VRT and VRB MODE1 = 0V, MODE2 = 3V, MODE3 = 3V, PS = 3V RFCONT = 0.3V, open between VRT and VRB MODE1 = 0V, MODE2 = 3V, MODE3 = 0V, PS = 3V PS = 0V DIN = 1s, 20mVp-p pulse AGCCONT = 3V, ICONT = 3V DIN = 1s, 500mVp-p pulse AGCCONT = 1.5V, ICONT = 3V A CON max. - A CON min. (Ta=25C, VCC1, 2, 3 = 3V) Min. 30 Typ. 41.0 Max. Unit 53 LINE mode IDL Current consumption CH mode 10 13.9 19 mA IDCH 9 12.2 17 CL mode PS mode Maximum gain Minimum gain AGC IPCL IDP A CONT max. A CONT min. 9 2 28.5 -- 27.1 800 12.2 3.4 31.3 -0.8 32.1 895 17 6 -- 1.4 -- -- mV dB Range of gain AGC G variance Dynamic range maximum Dynamic range typical Offset high AGCmax. AGCCONT = 3V DRVOUT output signal at saturation level D AGCTYP. D CAOF high CAOF low CAOF pre VRTO VRBO VR BLKOF LIN G CH G AGCCONT = 2V DRVOUT output signal at saturation level Camera mode OFFSET = 1.5V Camera mode OFFSET = 3.0V Camera mode OFFSET = 0V With a 400 load With a 400 load With a 400 load BLKOF (PBLK = 3V) - BLKOF (PBLK = 0V) LIN/CH = 15kHz, 500mVp-p, Sine wave + offset voltage LIN/CH = 3MHz, 500mVp-p, sine wave 900 80 -- 25 2300 1300 950 --10 2.5 2.5 9.5 -- 600 955 98 2 34 2342 1359 983 9 3.43 3.18 12.7 -4.0 815 -- -- 5 40 2400 1400 1050 23 4.5 4.5 dB -- -2.5 -- mV mV mV mV DRV Offset low Offset preset VRT DC level REF VRB DC level VRT - VRB Offset LIN mode gain CH mode gain BLK AMP GCA RFCONT = 2.7V CL mode RF maximum gain CONmax. 15kHz 80mVp-p sine wave RFCONT = 0.3V CL mode RF minimum gain CONmin. 15kHz 500mVp-p sine wave Dynamic range SH3 D DIN = 1s, 1Vp-p pulse -9- SH3 CXA2056Q Electrical Characteristics Measurement Circuit GND GND GND GND GND GND PL1 PL2 PL3 VCC1 3V V7 1.5 to 3V CCDLEVEL AGCCONT CLPDM GND1 SHD SHP VCC1 24 C4 1F AC V8 VCC2 3V V9 1.5 to 3V AC V11 V10 0 to 3V OFF ON 23 22 21 20 19 18 N.C 17 C7 0.1F PL4 GND 25 16 GND 26 15 GND GND 27 14 SW5 LIN/ CH GND2 28 13 GND 29 12 GND V12 0.3 to 2.7V RFCONT 30 GND 31 GND 32 9 AC V13 C2 0.047F 1 2 3 4 5 6 7 8 R2 22 LOUTCLP MODE3 L SW1 HL V1 3V SW2 HL V2 3V SW3 HL V3 3V SW4 H V4 3V C5 0.1 R1 10k C6 70pF V5 1.85V GND GND GND GND GND GND GND GND SW1 SW2 SW3 SW5 SW4 L H H L H L L L L L L H H H H L H L L L H L - 10 - OFF ON OFF DRVOUT MODE1 MODE2 GND3 N.C PS MODE CAM H LIN CL CH POWER SAVE GND PBRFC VCC3 VCC3 3V C8 4.7F GND SW6 OFF ON GND C1 0.1F VRT 11 R3 400 VRB 10 C9 4.7F GND OFFSET V6 0 to 3V GND ICONT PBLK PL6 GND VCC2 XRS PL5 GND C3 1F DIN CLPOB GND PIN AGCCLP CXA2056Q Measurement Timing Chart 1H 2s 2.5V PL4 (CLPOB) 1H 2s 2.5V PL1 (CLPDM) GND GND 2.5V PL6 (PBLK) GND 1H V8 (DIN) Different for each test Equivalent to CCD signal black level V11 (CH) V13 (PBRFC) V10 + V11 (LIN) Different for each test PL2 (SHD) PL3 (SHP) PL5 (XRS) 2.5V GND - 11 - CXA2056Q Application Circuit GND GND GND GND GND CLPDM SHD SHP VCC VAGCCONT 1.5 to 3V CCDLEVEL AGCCONT CLPDM GND1 SHD SHP VCC1 24 1F CCD 23 22 21 20 19 18 N.C 17 26 15 VCC 27 14 GND 1.5 to 3V VICONT 28 LIN/CH 13 LIN/CH 0.1F 29 GND2 12 GND 30 11 GND 31 10 4.7F PBRFC PBRFC 0.047F 32 9 VCC3 VCC 1 2 3 4 5 6 7 8 LOUTCLP MODE3 DRVOUT MODE1 MODE2 GND3 N.C PS VRB A/D A/D IN 22 0.1F 3V 3V 3V 3V GND GND GND GND GND GND Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same. - 12 - GND 0.3 to 2.7V VRFCONT RFCONT VRB VRT GND VRT GND 4.7F OFFSET VOFFSET 0 to 3V GND ICONT PBLK PBLK GND VCC2 XRS XRS GND 1F DIN CLPOB CLPOB 25 16 GND PIN AGCCLP 0.1F CXA2056Q Description of Operation Refer to the Block Diagram. 1. Camera signal processing system Process the video signal processing pins as follows only in camera mode. <7> LOUTCLP ... Connect to GND. <29> LIN/CH ... Connect to GND. <31> RFCONT ... Connect to GND via the capacitor (approx. 0.01F). <32> PBRFC ... Connect to GND. Operating conditions The camera signal processing system operates when PS is High, MODE1 is Low, MODE2 is Low and MODE3 is High, or when PS is High, MODE1 is High, MODE2 is Low and MODE3 is Low. Camera signal processing system timing chart (when VCC = 3V) Sig interval Precharge level CCD output OPB interval Idle transfer interval Sig interval Signal level SHP SHD SH1 output SH2 output SH3 output CLPDM (2 dummy bit portion during the idle transfer interval) AGC output SH3 output - SH2 output x (- N) XRS CLPOB (2 during the OPB interval) CAMSH output 0.65V PBLK (10 during the idle transfer interval) Basic black level [3] 2.1V [1] [2] 2.1V 2s Black level 0.65V 2s 10s BLK SW output 1.35V [4] CAM DRVOUT output [5] Approx. VRB + 35mV when OFFSET = 0V Approx. VRB + 100mV when OFFSET = 1.5V Approx. VRB when OFFSET = 3V - 13 - CXA2056Q CDS (SH1, SH2, SH3): The CCD signal from the CCD image sensor is input to PIN and DIN where correlated double sampling (CDS) is performed by SH1, SH2 and SH3. The precharge level of the CCD output signal is sampled, held and output by the SH2 output, and the signal level is sampled, held and output by the SH3 output. SH1 and SH2 are the sample-and-hold circuits for the pre-charge level; SH3 is the sample-and-hold circuit for the signal level. CDSCLP 1, 2: CDSCLP1 and 2 stabilize the input signal DC level, clamp (CLPDM) the input signal during the idle transfer interval for the purpose of eliminating the AGC input offset, and adjust the DC level ([1], [2]) of SH2 and SH3 in line with VREF. CDSCLP1 is the clamp circuit for the precharge level, and CDSCLP2 is the clamp circuit for the signal level. AGC: AGC is the gain control amplifier for the camera signal. The gain can be varied from -1 to +31dB by adjusting the AGCCONT voltage control VAGCCONT from 1.5 to 3.0V. CAM SH: CAM SH is the sample-and-hold circuit for the camera signal processing system; it synchronizes the data readin timing for the external A/D. Sampling is possible according to the approximately 10ns sampling pulse width input to XRS. AGCCLP: The basic black level is set ([*3]) by clamping the AGC output waveform with the CLPOB clock during the OPB interval. When PBLK is High and CLPOB is Low, the clamping circuit operates, adjusting the AGCCLP current so that the DRVOUT potential equals the OFFSET potential (which is determined by the voltage applied to the OFFSET pin), thus setting the AGCCLP potential. The AGCCLP capacitance is connected to the AGCCLP pin. DC SHIFT: This circuit functions when AGCCLP operates, following the AGCCLP potential and forcing a DC shift of the AGC output waveform OPB interval to the basic black level. When AGCCLP is not operating, the basic black level is maintained at its previous setting. BLK SW: The black level is calibrated by blanking the black level signal of the AGC output waveform so that it does not fall below the basic black level and replacing the DC potential with VRB. ([4]) The signal is blanked when PBLK is low. CVSW: When the MODE1, 2, 3 and PS pin voltages are set so that the camera signal processing system operates, CVSW conducts the CAMDRV output (camera signal) into the DRVOUT. In addition, when these voltages are set so that the video signal processing system operates, CVSW conducts the VIDEODRV output (video signal) into the DRVOUT. - 14 - CXA2056Q OFFSET: OFFSET controls the CAMDRV output waveform black level offset. In the camera signal processing system camera mode, the OFFSET pin is enabled, permitting adjustment of the offset for the [OFFSET] and DRVOUT camera signals. ([5]) The voltage controlled by OFFSET is output as the CAMDRV output DC offset via AGCLP, DCSHIFT, CAMSH, and BLKSW. When the OFFSET voltage is 1.5 to 3.0V, DRVOUT DC can vary in a linear fashion from VRB + 100mV to VRB. In addition, when the OFFSET voltage is 0V, DRVOUT DC is preset to VRB + 35mV. CAMDRV: CAMDRV operates in the camera signal processing system mode, driving the external A/D. The current that flows to the last-stage amplifier in CAMDRV is controlled by applying voltage to the ICONT pin, making it possible to adjust the rise time of the output waveform, which affects the external A/D load capacitance. The variable range is 1.5 to 3V, with 1.5V yielding the maximum and 3V yielding the minimum. The optimum rise time for the external A/D input capacitance can be selected. VRT DRV, VRB DRV: These are the external A/D reference voltage drivers. These circuits are connected to A/D VRT and VRB, supplying 2.35V and 1.35V, respectively, when VCC is 3V. The IC's internal primary voltage is also generated on the basis of the VRT and VRB voltages. (VRB, VB, and VCENT) MODE CONTROL & POWER SAVE CONTROL: This block selects the mode governing the operation of the camera signal system and the video signal system through the selection of High and Low potential for the MODE1, 2, 3, and PS pins. The PS pin is the POWER SAVE pin; the power saving function operates when this pin is Low. 2. Video signal processing system Operating conditions The video signal processing system has three modes: LIN signal mode, CH signal mode and CL signal mode. The video signal processing system operates in LIN signal mode when PS is High, MODE1 is High, MODE2 is Low and MODE3 is High, or when PS is High, MODE1 is Low, MODE 2 is Low and MODE3 is Low. The video signal processing system operates in CH signal mode when PS is High, MODE1 is Low, MODE2 is High and MODE3 is High. The video signal processing system operates in CL signal mode when PS is High, MODE1 is Low, MODE2 is High and MODE3 is Low, or when PS is High, MODE1 is Low, MODE2 is High and MODE3 is High. Video signal processing system timing chart (when VCC = 3V) LIN mode LIN/CH input 1.46V * LIN CHAMP output (3.5dB) * DRVOUT output 1.4V - 15 - CXA2056Q LIN signal mode In LIN signal mode, LINSW and LOSW close, VISW is set to "1" and the video signal passes through CVSW. In addition, LINCHAMP, LINCLP, LOUTCLP, VIDC SHIFT, and VIDEO DRV all operate. LINCLP: LINCLP is an input clamp circuit that clamps the video composite signal sync level. The video composite signal is input to LIN/CH pin. LINCLP expands the input dynamic range, and sync tip clamps the input signal at VB (= 1.4V) to allow full input. The input level and frequency are respectively 571mVp-p (Max.) and DC is up to 7MHz. LINCHAMP: LINCHAMP amplifies the LIN signal and the CH (high-band chroma) signal; the gain is fixed at 3.5dB. VISW: VISW switches the LIN signal, the CH (high-band chroma) signal, and the CL (low-band chroma) signal. The signals are switched according to the mode selection. LOUTCLP: LOUTCLP is an output clamp circuit that clamps the sync level of the video composite signal that is output from VIDEO DRV. Because the VIDEO DRV output signal is fully input to the external A/D, the clamp level is set to VB (= 1.4V). If the sync level of the signal output from VIDEO DRV drops below VB, LOUTCLP operates: the LOUTCLP current flows so that the sync level equals VB, and the LOUTCLP potential is set. A clamping capacitor is connected to the LOUTCLP pin. VIDC SHIFT: VIDC SHIFT functions when LOUTCLP operates, following the LOUTCLP potential and forcing a DC shift of the VIDEO output signal sync level to VB. VIDEO DRV: VIDEO DRV outputs the video signal (LIN, CH, CL) to the external A/D in video signal processing mode. - 16 - CXA2056Q CH (high-band chroma) signal mode In CH mode, CHSW closes, VISW is set to "2" and the video signal passes through CVSW. In addition, LINCHAMP and VIDEO DRV operate. VS1: The video high-band chroma signal is input to the LIN/CH pin. VS1 expands the input dynamic range and sets a center DC bias so that the center potential of the SIN signal is 1.85V to allow full input. The input level and frequency of the CH signal are respectively 470mVp-p (Max.) and from 1 to 7MHz. VCENT: VCENT is a DC bias circuit that operates when the CH signal is output to VIDEO DRV. The DC bias potential is generated from VRT and VRB, and is set to 1.85V. CH mode LIN/CH input 1.85V * LINCH AMP output (3.5dB) * DRVOUT output 1.85V - 17 - CXA2056Q CL (low-band chroma) signal mode In CL mode, VISW is set to "3" and the video signal passes through CVSW. In addition, CLGCA and VIDEO DRV operate. VS2: The video low-band chroma signal is input to the PBRFC pin. VS2 expands the input dynamic range and sets a center DC bias so that the center potential of the SIN signal is 1.9V to allow full input. The input level and frequency of the CH signal are respectively 1490mVp-p (Max.) and DC is up to 1.5MHz. CLGCA: The CLGCA amplifier controls the gain of the CL signal input to the PBRFC pin. The gain can be varied from -4 to +12.5dB by adjusting the RFCONT voltage from 0.3 to 2.7V. The phase of the CLGCA output waveform is reversed in DRVOUT. VCENT: VCENT is a DC bias circuit that operates when the CL signal is output to VIDEO DRV. The DC bias potential is generated from VRT and VRB, and is set to 1.85V. CL mode PBRFC input 1.9V * CLGCA output (-4 to +12.5dB) * DRVOUT output 1.85V - 18 - CXA2056Q Example of Representative Characteristics CAM mode AGCCONT control supply voltage characteristics VAGCCONT vs. Gain 35 30 Tc = 27C VCC = 3V VCC = 3.15V VCC = 3.3V Gain [dB] 20 10 0 -4 1.5 2.0 2.5 VAGCCONT [V] 3.0 3.3 CAM mode OFFSET control supply voltage characteristics VOFFSET vs. OFFSET 115 Tc = 27C 100 80 OFFSET [mV] 60 40 20 VCC = 3.3V VCC = 3V 0 1.0 2.0 VOFFSET [V] 3.0 3.3 (VRB =) 0 CL mode RFGCA gain control supply voltage characteristics VRFCONT vs. Gain Tc = 27C VCC = 3V VCC = 3.15V VCC = 3.3V 25 Gain [dB] 20 10 0 -5 0 1.0 2.0 VRFCONT [V] 3.0 3.3 - 19 - CXA2056Q CAM mode AGCCONT control temperature characteristics AGCCONT vs. Gain 35 30 VCC = 3.0V Tc = -20C Tc = +27C Tc = +75C Gain [dB] 20 10 0 -4 1.5 2.0 2.5 3.0 AGCCONT [V] CAM mode OFFSET control temperature characteristics VOFFSET vs. OFFSET VCC = 3.0V Tc = -20C Tc = +27C Tc = +75C 150 OFFSET [mV] 100 50 (VRB =) 0 0 1.0 2.0 3.0 VOFFSET [V] CL mode RFGCA gain control temperature characteristics VRFCONT vs. Gain VCC = 3V Tc = -20C Tc = +27C Tc = +75C 25 Gain [dB] 20 10 0 -5 0 0.3 1.0 2.0 VRFCONT [V] 2.7 3.0 - 20 - CXA2056Q CAM mode maximum signal amplitude temperature characteristics (Max. gain) Tc vs. Vout VCC = 3.0V, AGCCONT = 3.0V Input amplitude DIN = 28mVp-p Input amplitude DIN = 24mVp-p Input amplitude DIN = 21mVp-p 0.9 Gain temperature characteristics from -20 to +100C DIN = 28mVp-p +0 30.99 -0.23 dB 0.8 CAM mode maximum signal amplitude temperature characteristics (Min. gain) Tc vs. Vout VCC = 3.0V, AGCCONT = 1.5V Input amplitude DIN = 870mVp-p Input amplitude DIN = 800mVp-p Input amplitude DIN = 750mVp-p Input amplitude DIN = 700mVp-p Input amplitude DIN = 600mVp-p Vout [Vp-p] 1.0 30.99dB 30.99dB DIN = 24mVp-p +0 31.41 -0.38 dB 0.9 31.41dB 31.41dB DIN = 21mVp-p +0 31.45 -0.33 dB 0.8 31.45dB 31.45dB 31.12dB 31.03dB 30.76dB Vout [Vp-p] DIN = 870mVp-p DIN = 800mVp-p 0.7 DIN = 750mVp-p DIN = 700mVp-p 0.6 DIN = 600mVp-p 0.53 -20 0.75 -20 0 50 Tc [C] 100 0 50 Tc [C] 100 LIN, CH mode LINCHAMP gain temperature characteristics Tc vs. Gain VCC = 3.0V LIN mode CH mode 4 LIN, CH mode LINCHAMP gain supply voltage characteristics VCC vs. Gain Tc = 27C CH mode LIN mode Gain [dB] 3.5 3 -20 0 Tc [C] 75 Gain [dB] 4 3.5 3 3 3.15 VCC [V] 3.3 - 21 - CXA2056Q CH, LIN, CL mode input pin DC voltage temperature characteristics Tc vs. DCIN 1.9 1.85 1.8 1.75 CH mode CL mode DCIN 1.7 VCC = 3.0V 1.65 1.6 1.55 1.5 1.45 1.4 -20 0 LIN mode 20 40 60 80 Tc [C] 1.9 1.85 CH, LIN, CL mode DRVOUT output DC voltage temperature characteristics Tc vs. DCOUT CL mode CH mode 1.8 1.75 DCOUT 1.7 VCC = 3.0V 1.65 1.6 1.55 1.5 1.45 1.4 -20 0 LIN mode 20 Tc [C] 40 60 80 VRT, VRB, VRT - VRB temperature characteristics Tc vs. VRT, VRB, VRT - VRB 2.4 VRT 2.2 VRT, VRB, VRT - VRB [V] 2.0 VCC = 3.0V 1.8 1.6 1.4 1.2 1.0 0.8 -20 VRT - VRB VRB 0 20 Tc [C] 40 60 80 - 22 - CXA2056Q -30 LIN mode 2nd/3rd harmonic distortion temperature characteristics Tc vs. 2nd/3rd harmonic distortion 2nd/3rd Harmonic Distortion [dB] VCC = 3.0V f = 5MHz 2nd: out = 0.9Vp-p 3rd: out = 0.9Vp-p CH mode 2nd/3rd harmonic distortion temperature characteristics Tc vs. 2nd/3rd harmonic distortion -30 -35 -40 -45 -50 -55 -60 -65 -70 -75 -80 -20 0 20 Tc [C] 40 60 80 3rd: out = 0.75Vp-p 2nd: out = 0.75Vp-p 2nd: out = 0.9Vp-p VCC = 3.0V f = 5MHz 3rd: out = 0.9Vp-p 2nd/3rd Harmonic Distortion [dB] -35 -40 -45 -50 -55 -60 -65 -70 -75 3rd: out = 0.75Vp-p 2nd: out = 0.75Vp-p -80 -20 0 20 Tc [C] 40 60 80 CL mode 2nd/3rd harmonic distortion temperature characteristics (Min. gain) Tc vs. 2nd/3rd harmonic distortion -30 CL mode 2nd/3rd harmonic distortion temperature characteristics (Max. gain) Tc vs. 2nd/3rd harmonic distortion -30 2nd/3rd Harmonic Distortion [dB] -40 -45 -50 -55 -60 -65 -70 -75 2nd/3rd Harmonic Distortion [dB] -35 VCC = 3.0V, RFCONT = 0.3V f = 700kHz 2nd: out = 0.75Vp-p 3rd: out = 0.75Vp-p 2nd: out = 0.3Vp-p 3rd: out = 0.3Vp-p -35 -40 -45 -50 -55 -60 -65 -70 -75 VCC = 3.0V, RFCONT = 2.7V f = 700kHz 3rd: out = 0.75Vp-p 2nd: out = 0.75Vp-p 3rd: out = 0.3Vp-p 2nd: out = 0.3Vp-p -80 -20 0 20 Tc [C] 40 60 80 -80 -20 0 20 Tc [C] 40 60 80 - 23 - CXA2056Q Package Outline Unit: mm 32PIN QFP (PLASTIC) 9.0 0.2 + 0.3 7.0 - 0.1 24 17 + 0.35 1.5 - 0.15 0.1 25 16 32 9 + 0.2 0.1 - 0.1 1 0.8 + 0.15 0.3 - 0.1 8 + 0.1 0.127 - 0.05 0 to 10 0.24 M PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE QFP-32P-L01 QFP032-P-0707 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN SOLDER PLATING 42 ALLOY 0.2g - 24 - 0.50 (8.0) |
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