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| CXA1843Q High-Speed Sample-and-Hold IC For the availability of this product, please contact the sales office. Description The CXA1843Q is a bipolar IC designed to sampleand-hold video and various other signals with high speed. It is ideal for video and other signal conversions. Features * Maximum operating rate = 33MHz (min.) * Low power consumption: 320mW * S/H clock pulse generator circuit * Built-in clock pulse generator for A/D converter Applications When used in combination of the CXA1844Q, the CXA1843Q achieves A/D conversion. Absolute Maximum Ratings (Ta = 25C) * Supply voltage VCC 7 V VEE -7 V * Input voltage (VIN pin) VIN VEE to AVCC + 0.3 V (REFIN pin) VREFIN +1 to AVCC + 0.3 V (CLKIN pin) VCLK GND - 0.5 to DVCC + 0.3 V (REX 2, 3, 4 pins) VREX2, 3, 4 GND to GND + 4 V * Reference voltage (REFFB pin) VREFFB VEE to +3 V (REFOUT pin) VREFOUT VEE to AVCC + 0.3 V * Output current (REFFOUT pin) IREFOUT -1 to +1 mA (SHOUT pin) ISHOUT -12 to +12 mA (CLKOUT pin) IADC -1.5 to +1.5 mA * Storage temperature Tstg -65 to +150 C * Allowable power dissipation PD 1.1 W Operating Conditions * Supply voltage VCC VEE * Operating temperature Topr 32 pin QFP (PIastic) Structure Bipolar silicon monolithic IC Block Diagram and Pin Configuration CLKOUT REF IN DVCC2 DVCC1 AVCC4 17 NC REFFB REFOUT AVEE3 AVCC3 SHOUT AVEE2 NC 14 SAMPLE HOLD PULSE GENERATOR 13 12 11 SAMPLE HOLD 10 9 1 2 3 4 5 6 7 8 GND NC 24 NC 25 DVEE1 26 REX3 27 REX4 28 DVEE2 29 DVCC3 30 CLK IN 31 NC 32 23 22 21 20 19 18 REX2 NC A/D CONVERTER PULSE GENERATOR REF DC 16 SHIFT 15 AVCC1 CGND AVEE1 HGND VIN 4.75 to 5.25 -4.75 to -5.25 -20 to +75 V V C 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- NC NC E92855B7Y CXA1843Q Pin Description Pin No. 1 Symbol AVCC1 Pin voltage 5V (Typ.) AVCC1 Equivalent circuit Description Analog positive power supply. 2 HGND 0V Internal resistance GND for sample-and-hold. HGND VIN 130 30k 3 VIN -- DVEE2 Sample-and-hold-input. 4 AVEE1 -5V (Typ.) Analog negative power supply. 5 CGND 0V AVCC1 AVEE1 500 500 CGND Internal capacitance GND for sample-and-hold. DVEE2 6 7 8 9 10 NC NC NC NC AVEE2 -- -- -- -- -5V (Typ.) AVCC3 Connect to AGND. Connect to AGND. Connect to AGND. Connect to AGND. Analog negative power supply. 11 SHOUT SHOUT Sample-and-hold output. DVEE2 -2- CXA1843Q Pin No. 12 13 Symbol AVCC3 AVEE3 Pin voltage 5V (Typ.) -5V (Typ.) -2.8V As shown in the Application Circuit, PNP TR. is connected and 2.5V is applied to Pin18. -2V As shown in the Application Circuit, PNP TR. is connected and 2.5V is applied to Pin18. -- 5V (Typ.) AVCC4 Equivalent circuit Description Analog positive power supply. Analog negative power supply. AVCC4 400 130 REFFB REFOUT 14 REFOUT Connect the base of the external PNP transistor to create a -2V power supply. 15 REFFB AVEE3 DVEE2 Connect the emitter of the external PNP transistor to create a -2V power supply. 16 17 NC AVCC4 Connect to AGND. Analog positive power supply. 18 REFIN 2.5V (Typ.) REFIN 130 GND DVEE2 300 External DC input for adjusting the -2V power supply. DVCC2 19 REX2 Approx. 0.5V When external resistor is connected between Pin 19 and AGND REX2 GND DVEE2 1k 130 0.5V Connect external resistor that determines the time interval (T2) between master clock (MCLK) rise and A/D converter clock (A/D CLK) fall. (Normally connect to 1.6k) 20 NC -- Connect to AGND. -3- CXA1843Q Pin No. 21 Symbol GND Pin voltage 0V Equivalent circuit GND DVCC2 Description H: DVCC2 - 0.78V 22 CLKOUT L: DVCC2 - 1.52V (Typ.) 600 CLKOUT 2.2mA GND DVEE2 A/D converter clock (A/D CLK) output. 23 24 25 26 DVCC1 DVCC2 NC DVEE1 5V (Typ.) 5V (Typ.) -- -5V (Typ.) Approx. 0.5V When external resistor is connected between Pin 27 and DGND Approx. 0.5V When external resistor is connected between Pin 28 and DGND -5V (Typ.) 5V (Typ.) DVCC3 DVCC2 Digital positive power supply. Digital positive power supply. Connect to DGND Digital negative power supply. Connect external resistor that determines the time interval (T3) between master clock (MCLK) rise and sample-and-hold internal clock (S/H CLK) rise. (Normally connect 2.7k) 1k 130 0.5V 27 REX3 1k REX3 REX4 GND DVEE2 130 28 REX4 Connect external resistor that determines the time interval (T4) between master clock (MCLK) rise and sample-and-hold internal clock (S/H CLK) rise. (Normally connect 1.5k) Digital negative power supply. Digital positive power supply. 29 30 DVEE2 DVCC3 31 CLKIN -- CLKIN GND 130 Master clock (MCLK) input. TTL level. (Vth = 1.5V) 300 DVEE2 32 NC -- Connect to DGND. -4- CXA1843Q Electrical Characteristics Item Maximun operating rate Current consumption S/H Amplifier Block VIN input current VIN input voltage range Droop Feed through IVIN VIN HMDR HMTH VIN = -1V FIN = 1kHz, distortion factor -55dB VIN = -2V to 0V FIN = 16.5MHz (2Vp-p) VIN = -1V, FCLK = 33MHz FIN = 1kHz (2Vp-p), FCLK = 33MHz 20Log (VO (16.5MHz)/VO (200kHz)), Sampling time = 14ns CL = 50pF Symbol FC ICC IEE Conditions (Ta = 25C, VCC = 5V, VEE = -5V) Min. 33 32 -28 41 -23 50 -18 Typ. Max. Unit MHz mA mA 1 -2.2 -20 -40 55 -0.5 -1 140 20 50 0.2 A V mV/s dB mV dB dB V/s 20 -50 90 0.3 0.2 160 80 -70 120 0.5 1 200 S/H output offset voltage VOFFSET S/H output gain S/H output frequency response S/H output slew rate Reference Amplifier Block REFIN input current REFFB output voltage Digital I/O Block CLKIN input current ICLKL ICLKH VCLKL VCLKH CLKIN clock width A/D clock low level A/D clock high level TPWH TPWL VADCL VADCH IREFIN VREFFB Gsh Fsh SR VREFIN = 2.5V VREFIN = 2.5V 0 -2.2 1 -2.0 10 -1.8 A V VCLKIN = 0V VCLKIN = 5V -10 0 -6 0 0 1 0.8 A A V V ns ns CLKIN input voltage 2.0 9 9 VCC - 1.52 VCC - 1.40 VCC - 0.90 VCC - 0.78 V V -5- CXA1843Q Timing Chart VIN (Pin 3) (0 to -2V) Tsd TPWL MCLK(Pin 31) (TTL) T4 T3 S/H CLK (Not output to outside) Hold Sample Hold Sample N+1 N+2 N Tsd TPWH Threshold voltage = 1.5V Tsd Hold Sample Hold Threshold voltage taqr tdr S/H OUT (Pin 11) (0 to -2V) 10% N-1 tdf taqf A/D CLK (Pin 22) (PECL) Threshold voltage = VCC - 1.2V T2 tD (max) tD (min) Threshold voltage = 1.5V N 90% 10% 90% N+1 2Vp-p N+2 T1 = 6ns A/D output (CXA1844Q) (TTL) DN - 3 DN - 2 DN - 1 DN TS Th MCLK (Clock pulse for the device next to the ADC in order to latch the A/D output) Threshold voltage = 1.5V System master clock. This clock actuates the internal sample-and-hold circuit. The internal clock pulse circuit generates the S/H CLK, which is not output outside the IC. A/D CLK: This clock actuates the A/D converter. The internal clock buffer circuit generates the A/D CLK. This clock has the level where +5V is shifted from the ECL level. TPWH, TPWL: S/H CLKIN input clock width Tsd: S/H sampling delay for the S/H internal clock T1: Fixed time interval between master clock rise and A/D CLK rise, T1 = 6ns (typ.) T2: Time interval between MCLK rise and A/D CLK fall T3: Time interval between MCLK rise and S/H CLK rise T4: Time interval between MCLK rise and S/H CLK fall taqf, tdf: 10%/90% falling output delay of S/H from MCLK rise taqr, tdr: 10%/90% rising output delay of S/H from MCLK rise tD (min., max.): Minimum/maximum output delay of A/D converter (Refer to the CXA1844Q specification.) Ts: Setup time of A/D output and MCLK Th: Hold time of A/D output and MCLK -6- MCLK: S/H CLK: Application Circuit AGND 62 5V 1k 430 2k 47 0.1 AGND 17 AGND AGND AGND AGND AGND AGND (NC) 16 AGND 0.1 0.1 0.1 32 31 30 29 27 26 28 25 REFFB 15 36 34 33 35 0.1 0.1 47 DGND DGND 5V 0.1 DGND 0.1 20 19 18 5V 5V DGND DGND DGND 24 23 22 21 GND (NC) REX2 REX2 0.1 0.1 DGND DGND -5V 26 DVEE1 0.1 DGND (NC) VREF3 VREF2 VREF1 VREFB VREFT VREFBS VREFTS (NC) (NC) DGND -5V 0.1 38 50 39 50 40 AVEE2 10 0.1 5V 41 200 AGND D1 AGND AGND 43 (NC) 42 0.1 (NC) (NC) 9 AGND -5V VINH VINL (NC) AVCC3 12 5V 0.1 SHOUT 11 AGND REX3 0.1 DGND 47 AVEE3 13 AGND 37 (NC) DGND3 DGND4 DGND 14 27 REX3 REFOUT CLKOUT DGND 25 (NC) DVCC2 DVCC1 REFIN AVCC4 P1 25A1005 AGND AGND PS 24 PS 28 REX4 -5V REX4 0.1 DGND CXA1843Q ENABLE 23 ENABLE 29 DVEE2 CLK 22 30 DVCC3 0.1 DGND 5V 0.1 DGND MINV 21 MINV MCLK 31 CLKIN LINV 20 LINV TTL DGND 32 (NC) AVEE1 D0 1 D1 2 D2 3 D3 4 D4 5 DGND1 DGND1 -7- CGND (NC) (NC) (NC) 5 6 7 8 AVCC1 HGND VIN (NC) 19 1 2 3 4 CXA1844Q DGND2 18 DGND 0.1 -5V 44 0.1 5V AGND 45 DVCC2 0.1 DGND 46 UNDER AVEE AGND 0.1 AGND AGND AGND AGND DVEE 17 0.1 DGND DGND1 16 AGND -5V AGND 5V VIN DGND -5V VIN = 2Vp-p (max) DC - 1V DVCC1 15 0.1 DGND DGND1 14 5V 47 OVER DGND 48 DGND1 DGND1 D5 6 7 8 D6 9 D7 10 D8 11 D9 12 13 DGND CXA1843Q External Resistance DGND DGND Symbol External resistance UNDER OVER D0 D1 D2 D3 D4 REX2 1.6k D5 D6 D7 D8 D9 REX3 2.7k REX4 1.5k 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. CXA1843Q Metal film resistors must be connected to the REX2 to REX4 pins. CXA1843Q Notes on Operation (1) In circuit board layout, it is necessary that the AGND and DGND patterns be as large as possible and that double or more layer pattern be used to make low impedance. (2) To prevent digital system noise interference with the analog system, the AGND and DGND, AVCC and DVCC, AVEE and DVEE on the PCB must be separated from each other. However, connect the AVEE and DVEE with coil and others to prevent the generation of differential voltage. (3) The AVCC, DVCC, AVEE and DVEE pins must be connected to the AGND or DGND respectively via ceramic chip capacitors those are 0.1F or more, as close to the pin as possible. (4) The length of the wiring between the S/H SHOUT and A/D converter VIN should be as short as possible. (5) The range of the signal input to VIN (Pin 3) of the sample-and-hold circuit is 0 to -2V. (6) Adjust the VREFIN applied voltage so that VREFFB = f - 2V. (7) As shown in the Block Diagram, the amplifier input and output are internally connected to the REFOUT and REFFB pins. To generate REFFB voltage for the reference voltage of A/D converter, the connection of an external PNP transistor (hFE 100 (typ.)) is required as shown in the Application Circuit. (8) Make the S/H DVCC2 voltage equal to the A/D converter DVCC1 voltage. -8- CXA1843Q Example of Representative Characteristics ICC vs. Ta 42 -21 IEE vs. Ta 41 -22 ICC [mA] 40 IEE [mA] -23 39 -25 0 25 Ta [C] 50 75 -24 -25 0 25 Ta [C] 50 75 ICC vs. VCC 43 42 41 -21 -19 IEE vs. VEE -20 ICC [mA] IEE [mA] 40 39 38 37 36 4.75 -22 -23 -24 5 VCC [V] 5.25 -25 -5.25 -5 VEE [V] -4.75 VOFFSET vs. VCC 100 VIN = -2V 95 95 100 VOFFSET vs. VEE VIN = -2V VOFFSET [mA] VOFFSET [mA] VIN = -1V 90 VIN = -1V 90 VIN = 0V 85 85 VIN = 0V 80 4.75 5 VCC [V] 5.25 80 -5.25 -5 VEE [V] -4.75 -9- CXA1843Q VOFFSET vs. Ta VREFFB - A/D converter reference voltage [V] 120 110 VIN = -2V A/D converter reference voltage vs. Input voltage -1.4 -1.6 VOFFSET [mV] 100 VIN = -1V 90 VIN = 0V -1.8 -2 80 -2.2 70 -2.4 -2.6 60 -25 0 25 Ta [C] 50 75 2 2.5 VREFFIN - Input voltage [V] 3 A/D converter reference voltage vs Ta (VREFFIN = 2.5V) -1.99 -2.004 A/D converter reference voltage vs. VCC (VREFFIN = 2.5V) VREFFB - A/D converter reference voltage [V] VREFFB - A/D converter reference voltage [V] -2.005 -1.995 -2.006 -2 -2.007 -2.008 -2.005 -2.009 -2.01 -25 0 25 Ta [C] 50 75 -2.01 4.75 5 VCC [V] 5.25 A/D converter reference voltage vs. VEE (VREFFIN = 2.5V) -2.004 VREFFB - A/D converter reference voltage [V] -2.005 -2.006 -2.007 -2.008 -2.009 -2.01 -5.25 -5 VEE [V] -4.75 - 10 - CXA1843Q T2 vs. REX2 40 A/D clock width Tpwh (T2-T1) variation vs. Ta (Ta = 25C typ.) 1 35 A/D clock width Tpwh variation [ns] 0.5 30 T2 [ns] 25 0 20 -0.5 15 10 0 1 2 3 -1 -25 0 REX2 [k] For normal use. REX = 21.6k 25 Ta [C] 50 75 A/D clock width Tpwh (T2-T1) variation vs. VCC (VCC = 5.0V typ.) 1 A/D clock width Tpwh (T2-T1) variation vs. VEE (VEE = -5.0V typ.) 1 A/D clock width Tpwh variation [ns] 0.5 A/D clock width Tpwh variation [ns] 0.5 0 0 -0.5 -0.5 -1 4.75 5 VCC [V] 5.25 -1 -5.25 -5 VEE [V] -4.75 S/H output delay (tdr, tdf) vs. REX3 (taqr, taqf) vs. REX4 45 1.5 S/H output delay variation vs. Ta (Ta = 25C typ.) taqf 35 taqr S/H output delay variation [ns] 5 REX3 [k] 2.8 REX4 [k] 40 1 0.5 tdr, tdf, taqr, taqf [ns] 30 tdr 25 tdf 20 15 2 1.1 3 4 2 For normal use, REX3 = 2.7k REX4 = 1.5k 0 -0.5 -1 -1.5 -25 0 25 Ta [C] 50 75 - 11 - CXA1843Q S/H output delay variation vs. VCC (VCC = 5.0V typ.) 1 1 S/H output delay variation vs. VEE (VEE = -5.0V typ.) S/H output delay variation [ns] S/H output delay variation [ns] 5 VCC [V] 5.25 0.5 0.5 0 0 -0.5 -0.5 -1 4.75 -1 -5.5 -5 VEE [V] -4.5 Input frequency vs. S/N ratio for CXA1843Q + CXA1844Q (clock frequency = 33MHz) 60 Amplitude = 2Vp-p Amplitude = 1Vp-p 55 50 S/N ratio [dB] 45 40 35 30 0.001 0.01 0.1 Input frequency [MHz] 1 10 20 - 12 - CXA1843Q S/H + A/D EVALUATION BOARD The S/H + A/D Evaluation Board is a printed circuit board for evaluating the 10-bit 33MSPS high speed sample-and-hold IC (CXA1843Q) and 2-step A/D converter (CXA1844Q). This board is designed to enable users to make full use of the performance of CXA1843Q + CXA1844Q and evaluate them easily. Features * Resolution * Maximum operating conversion speed * 2 types analog input * Analog input dynamic range * Digital output level * Power supply voltage * Built-in D/A converter (For evaluation) Block Diaram 10bit 33MSPS VIN input (OP AMP input) and DIR. IN input (AC coupled input) are available. 2Vp-p TTL 5V Generates the analog waveform. S2 CLK input (CON4) 50 Counter CLK/16 CLK/8 CLK/4 CLK/2 CLK/N 10 DGND Buffer Buffer CLK Latch 10 CON ENABLE SW1 A/D CLK VREFBS MINV LINV DAINV PS FULSCAL ADJ VR2 A/D OUT 10 CLK/N Latch 10 TTL ECL 10 10bit D/A AGND VEE D/A OUT (CON3) 10bit A/D VRBS VRB VIN L VIN H 18 REX2 1.6k 2.7k 1.5k -2.0V REF IN REFB S/H MCLK 2.5V AGND OFFSET ADJ OP VR1 AMP AGND x 2 Analog input VIN (CON1) 50 AGND Analog input DIR.IN (CON2) VIN A S1 B S/H OUT REX3 REX4 VEE GND VCC (-5V) (+5V) 50 AGND S/H + A/D Evaluation Board Block Diagram - 13 - CXA1843Q Connection and Setting for S/H + A/D Evaluation Board 1. Power supply voltage (CON6) Item Vcc VEE Min. +4.75 -5.25 Typ. +5.0 -5.0 Max. +5.25 -4.75 Unit V V Typical current 220 -400 Unit mA mA 2. Analog input (CON1, CON2) and offset adjustment (VR1) [VIN Input] (CON1) When the amplitude of an analog input signal supplied to the sample-and-hold is 1Vp-p and its input range is within 1.0V to -0.9V, the board is able to amplify its amplitude by two times using the operation amplifier. The S1 selector should be short-circuited at side A and opened at side B, and the analog input is added from CON1. In this case, offset adjustment is required at the VR1, so that the dynamic range of the analog input signal can be set to a value between 0V to -2V by monitoring the VIN pin. [DIR IN. Input] (CON2) When the input supplied to the sample-and-hold is a recurring signal (sine wave, etc.) without offset, it is added using the AC coupled input from CON2 by connecting a 10k resistor to side A and a 0.1F capacitor to side B of the S1 selector. In this case, offset adjustment is required at the VR1, so that the dynamic range of the analog input signal can be set to a value between 0V to -2V by monitoring the VIN pin. S1 setting Item VIN input (CON1) DIR. IN input (CON2) Min. -0.9 -2.0 0 Typ. Max. 1.0 2.0 Amplitude 1.0 2.0 Unit V V A short 10k B open 0.1F (CON1 and CON2 are terminated to AGND at 50 on the board.) 3. Clock input (CON4) TTL compatible Use in the 30 to 70% CLK duty range (CON4 is terminated to DGND at 50 on the board.) 4. Digital output (CON5) TTL compatible C-MOS (ACT series) output - 14 - CXA1843Q 5. D/A out (CON3) and full-scale adjustment (VR2) The output waveforms of the D/A converter are output from CON3. When an oscilloscope or other such instrument is used for monitoring, a 50 terminating resistor is required. The full-scale output voltage must also be adjusted. And the output amplitude should also be adjusted to 1Vp-p by the VR2. Item D/A OUT Min. -1.0 Typ. Max. 0 Unit V 6. SW1 setting These are the switches for PS, ENABLE, MINV, and LINV of the A/D converter and the DAINV of the D/A converter. Normally all are used ON. 7. S2 setting This is the selection of the frequency division ratio for the clock which is supplied to the D/A converter. Normally, 1/1 is used but the ratios from 1/2 to 1/16 are also used for the envelope test or other tests. - 15 - CXA1843Q CXA1843Q + CXA1844Q PCB Timing Chart N Analog input (0 to -2V) N+1 N+2 CLK input (TTL) MCLK (TTL) T4 SH CLK (internal) SH Analog out (0 to -2V) T2 AD CLK (PECL) T1 Tpwh tdmax AD Data out (TTL) tdmin N-2 N-1 N Tpwl T3 Sample Hold N N+1 TH TL N+2 S H S H Latch CLK input (TTL) Latch Data out (TTL) N-3 N-2 N-1 CON5 Data out (TTL) DAC Data input (ECL) N-4 N-3 N-2 N-3 N-2 N-1 DAC CLK input (ECL) N-2 DAC Data OUT (0 to -1V) N-3 N-4 Item S/H CLK delay Symbol T3 T4 Min. Typ. 20 33 6 20 Max. Unit ns ns ns ns ns ns A/D CLK delay T1 T2 A/D CLK width A/D output data delay tpwh tpwl td 14 13 4 - 16 - 18 ns CXA1843Q S/H + A/D Evaluation Board Parts List (No.) IC.1 IC.2 IC.3 IC.4 IC.5 IC.6 IC.7 IC.8, 9 D1, 3 D2 P1 SW.1 CON.5 CON.6 S1.3 VR1.2 C1 to 11 (Product Name) CXA1843Q CXA1844Q CLC505 CX20201A-1 74ACT34 74ACT163 74ACT16821 MB767 TL431CP 1S1555 2SA1175 DSS-105 FAP-2601-1201 TJ-563 JX-1 RJ-6P LS-2S (Function) Sample Hold 10bit ADC OP-AMP DAC Buffer Counter Latch ECL TTL level translator 3-pin shunt regulator Diode PNP transistor Switch SMA connector Flat cable connector Power supply connector Short-pin 2k volume resistor Check pin (No.) R1, 13, 38 R21, 25 R2, 22 R3, 4 R23 R12 R5, 8, 15, 16, 18, 19 R24 R11 R9 R14 R10 R6, 7, 17, 20 RN1 to 3 C2, 9 to 17, 19, 23 to 32 34 to 40, 42 to 60 C1, 6 to 8, 33, 41 C3 to 5, 20 to 22 C18 L1 to 4 Ceramic capacitor SF-T5-30-03 Tantalum capacitor 1F (Voltage proof of 35V) 33F (Voltage proof of 35V) 100pF 30F (Product Name) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) FRD-25SR (0.25W) SN14C2F SN14C2F SN14C2F Chip resistor RGLD 4X621J Chip capacitor 620 0.1F (Function) 51 100 270 470 1k 4.7k 10k 51k 150k 1.5k 1.6k 2.7k CON.1 to 4 TMA5502-10 Precautions 1. The monitoring pins are designed to be easily grounded in order to minimize distortions occurring when monitoring waveforms on an oscilloscope. Waveform monitoring is facilitated by using the grounded tip (part No. 013-1185-00) made by Tektronix at the end of the probe. 2. VR1 and VR2 are optimally adjusted and set before the board is shipped. 3. REX2, REX3, REX4 (R14, R10, R9) on the board use metal-oxide resistor, and T2, T3, T4 are optimally adjusted and set within the range of 1MHz to 33MHz. - 17 - CXA1843Q S/H + A/D EVALUATION BOARD (Component Side) S/H + A/D EVALUATION BOARD (Solder Side) - 18 - S/H + A/D Evaluation Board GND MINV DAINV PS LINV ENABLE DGND 1/1 1/2 1/4 1/8 1/16 S2 DVCC DGND2 DVCC2 6 5 4 3 16 15 14 13 12 11 10 9 2 1 VCC DGND2 CON.4 CLK VEE DVEE2 (-5V) C5 L2 7H DVEE2 C5 33 DGND2 DVEE (-5V) C7 SW1 3A 2A 3Y 2Y GND 1Y 1A C37 EN T 0.1 A OUT C40 0.1 L4 C6 DVCC2 (+5V) 7H DVCC2 CON.6 C22 33 DGND2 GND C8 DVCC (+5V) L1 L3 DVCC DVEE C21 7H C4 7H C11 33 33 DGND DGND AVEE (-5V) C9 C10 AVCC (+5V) AGND DGND2 AVCC AVEE DGND C3 C20 33 33 AGND AGND DGND 74ACT34 IC.5 74ACT163 IC.6 24 C45 0.1 4Y 5Y 6Y 4A 5A 6A VCC A IN B IN D IN EN P PS NC 25 12 D9 12 GND1 GND1 ENABLE CLK DGND2 DGND1 DVCC1 DGND4 DVCC2 MINV DVEE 25 LINV 8 8 11 1 2 3 4 5 6 7 8 9 10 12 14 13 VCC CLEAR RCarry CLK C IN GND 8 24 23 22 20 21 17 16 15 14 19 18 13 DGND 13 14 DVCC2 1 C54 0.1 R38 51 ADCLK P4 26 11 27 DGND3 NC 10 D8 D7 DGND2 DGND2 D6 9 B OUT C OUT D OUT DGND2 DGND 28 C2 29 8 NC VREFTS VRFET CXA1844Q IC.2 DGND D4 5 7 D5 GND1 GND1 6 AGND 31 VREFTS C36 0.1 30 VRFE1 VRFE2 VRFE3 4 AVCC 32 C35 0.1 C34 0.1 33 C25 0.1 D3 D2 3 C26 0.1 AGND C27 0.1 34 VRFEB DGND2 2 MSB C8 C7 C6 C5 C4 C3 C2 C1 LSB DGND2 51 47 50 49 48 46 45 44 43 42 41 LOAD R15R18 10k 10k DVEE DVCC 7 7 1 16 9 C56 0.1 R16R19 10k 10k DGND2 DGND2 40 39 38 37 36 35 34 DGND2 33 32 31 30 29 35 VREFBS 56 1 56 54 55 52 53 D1 NC VINH AVF AVEE UNDER VCC VCC 1D2 1D3 1D6 1D9 2D1 2D3 2D4 2D6 2D7 1D1 1D4 1D5 1D7 1D8 2D2 2D5 2D8 GND NC 16 GND REX2 C44 0.1 DVCC2 DVCC1 REFIN AVCC4 C38 0.1 R17 R20 1OE_ 1CLK 1Q1 CLK OUT C32 0.1 AGND P1 1 2 3 4 5 6 GND 1Q4 C59 AVCC 0.1 0.1 29 DVEE2 12 IC.1 10 AVCC3 AVCC P2 NC 9 DGND DVEE C11 DVCC DVCC 0.1 C10 R7 0.1 R6 C28 0.1 9 AVEE 31 CLK IN AVEE2 32 NC UNDER OVER MCLK 30 DVCC3 SHOUT 11 C31 0.1 C30 0.1 C29 0.1 S/H out P3 DGND2 DGND2 DVCC DGND D2 AVEE C3 C4 AGND 1 DVCC2 CXA1843Q DGND2 DGND2 DVCC2 25 25 NC C13 0.1 26 C12 DVEE1 0.1 27 REX3 C9 0.1 28 REX4 AVEE3 13 C59 R10 2.7k R9 1.5k 7 1Q5 REFOUT 14 R21 100 8 9 1Q7 10 11 1Q8 12 13 1Q10 1D10 14 15 2Q2 16 17 GND 18 19 2Q5 20 21 VCC 22 23 2Q8 24 25 2Q9 26 27 2OE_ 2CLK GND 1Q6 GND 1Q9 2Q1 2Q3 2Q4 2Q6 2Q7 GND 2Q10 2D10 ACT1682 1 IC.7 DGND2 DGND2 DGND2 AVEE1 VIN AVCC1 HGND CGND NC NC NC 0.1 C57 C52 0.1 DGND2 AGND 20 20 19 18 17 16 15 14 13 12 11 DGND2 11 20 20 19 18 17 16 15 14 13 12 11 MSB 11 D8 D9 S IN1 IN2 IN4 IN6 IN1 IN3 IN5 IN7 IN8 IN2 IN4 VCC IN6 IN8 R24 51k R25 100 VCC DVEE 15 IN3 IN5 IN7 D7 MB767 IC.8 MB767 IC.9 D6 DVEE 14 CLKB DVEE 13 D7 D6 C42 0.1 OUT8 OUT6 OUT4 GND OUT3 VEE OUT5 OUT7 VEE OUT5 OUT2 C46 0.1 OUT1 OUT3 OUT1 OUT2 OUT4 GND OUT6 0.1 DGND 18 17 DGND AGND1 NC OUT NC NC NC NC NC AVEE VREF AGND2 C48 DGND C51 0.1 RN1 C50 0.1 CLK 1 LSB D1 DGND RN2 C49 0.1 D2 D3 D4 D5 DGND D6 D7 D8 OUT7 OUT8 16 INV CLK D5 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 D5 C53 0.1 C58 0.1 10 1 10 DGND2 D4 D3 D2 D1 LSB D4 D3 AGND 19 CON.3 D/A out 20 DVEE2 DGND2 DVEE2 D2 D1 D0 DGND DGND DGND DGND CLK CLK AGND 22 23 24 AGND AVEE A CX20201A-1 1 C2 AVCC 0.1 C23 C19 R2 R3 0.1 0.1 C1 270 470 C6 1 AVCC AVEE C 1 D1 R5 AGND A Vref 10k AVCC AGND VR1 AGND 2K C15 C8 OFFSET 0.1 1 VIN P1 AGND ADJ R8 10k AGND AGND CON.1 VIN R12 7 15 R4 S1 2 47 4.7k R1 8 IC.3 A 51 6 3 4 R11 C18 AGND B 150k 100P C14 C7 R13 AGND 0.1 1 51 CON.2 AVEE AGND AGND AGND DIR.in 15 14 21 S DGND2 D3 C Vref R1 21 AGND FULL 25 C43 0.1 SCALE ADJ 26 VR2 2K 27 C47 C41 1 R23 1k 0.1 28 28 R37 620 NC 12 R36 DGND 620 NC 11 R35 620 D10 10 R34 620 D9 9 R33 620 D8 8 R32 620 D7 7 R31 620 D6 6 R30 620 D5 5 R29 620 D4 4 R28 620 D3 3 R27 620 D2 2 R26 620 D1 1 1 CXA1843Q RN3 MSB DGND2 D8 C60 0.1 - 19 - C39 0.1 NC 16 36 37 48 37 38 39 41 47 42 43 44 45 48 46 40 REFFB 15 1Q2 1Q3 VCC DGND DVEE GND GND 2D9 24 23 17 22 21 20 19 18 C33 1 C1 AGND VREFBS 17 AGND NC VINL NC NC DVCC2 OVER GND1 DGND 36 C17 DVCC R14 0.1 DGND 1.6k C24 0.1 C16 0.1 24 NC 1 D0 29 28 28 DGND2 DGND DGND 8 32 8 DVCC2 DVCC2 CON.5 DVCC DVCC2 1 2 3 4 5 6 7 CXA1843Q 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 - 20 - 0.50 (8.0) |
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