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To Top / Lineup / Index FUJITSU SEMICONDUCTOR DATA SHEET DS04-28308-3E ASSP 2-Channel 8-BIT D/A Converter MB40968/40968V s DESCRIPTION The Fujitsu MB40968/40968V is a 2-channel 8-bit high speed digital to analog converter for video frequency band fabricated by Fujitsu Advanced Bipolar Technology. This is suitable for YC signal processing of digital VCR. s FEATURES * * * * * Resolution: 8-bits Linearity error: 0.2% (max.) Maximum conversion rate: 30 MHz (Min.) Analog output voltage range: 3 to 5V Reference voltage output: MB40968: Resistance-type potential divider output (3/5 x VCCA) MB40968V: Band gap reference output (VCCA - 2 [V]) * Digital input voltage: * Single power supply voltage: * Power dissipation: TTL level +5.0 [V] 270 [mW] (typ) s PACKAGE Plastic DIP, 28 pin Plastic FTP, 28 pin (DIP-28P-M03) (FTP-28P-M01) To Top / Lineup / Index MB40968/40968V s PIN ASSIGNMENT (TOP VIEW) A5 A6 A7 A 8(LSB) CLKA B 1(MSB) B2 B3 B4 B5 B6 B7 B 8(LSB) CLKB 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 A4 A3 A2 A 1(MSB) V CCD V CCA A OUT A.GND B OUT V CCA V RIN V ROUT COMP D.GND 2 To Top / Lineup / Index MB40968/40968V s PIN DESCRIPTION Pin Number 25 to 28 1 to 4 6 to 13 5 14 24 19, 23 15 21 Symbol A1 TO A8 B1 to B8 CLKA CLKB VCCD VCCA D-GND A-GND I/O I I I I -- -- -- -- Descriptions A-channel Digital Signal Inputs: A1 (MSB), A8 (LSB) B- channel Digital Signal Inputs: B1 (MSB), B8 (LSB) A-channel Clock Input B-channel Clock Input Power Supply for Digital Circuit Power Supply for Analog Circuit, two pins (19,23) should be used. Ground for Digital Circuit Ground for Analog Circuit Terminal for reference voltage input. Zero scale voltage of analog output is specified applying any voltage to this terminal. Input reference voltage should be 2.7 to 4.3V and, VCCA - VRIN 2.2V Terminal for reference voltage output by resistance-type potential divider. Analog output of "VCCA to 3/5 x VCCA" is supplied connecting this terminal with VRIN terminal. Terminal for reference voltage output consists of Band Gap reference. This terminal supplies the voltage of "VCCA - VCCA - 2V". 2V output is maintained connecting this terminal with VRIN, even if the power supply fluctuates frequently. Terminal for phase compensation capacitance; Capacitance of 1 F or more should be inserted between COMP and AGND. A-channel Analog Signal Output B-channel Analog Signal Output 18 VRIN I MB40968 VROUT 17 MB40968 VROUT O O 16 22 20 COMP AOUT BOUT -- O O 3 To Top / Lineup / Index MB40968/40968V s BLOCK DIAGRAM CLK A A 1(MSB) A2 A3 A4 A5 A6 A7 A 8(LSB) (A) (A) (A) (A) Input Buffer Master Slave F-F Buffer 8 8 Current Switch A-OUT 8 CLK B B 1(MSB) B2 B3 B4 B5 B6 B7 B 8(LSB) (B) (B) (B) (B) Input Buffer Master Slave F-F Buffer 8 8 Current Switch B-OUT 8 Reference Resistor AMP. Reference Voltage D.GND A.GND V ROUT V RIN COMP V CCD V CCA 4 To Top / Lineup / Index MB40968/40968V s ABSOLUTE MAXIMUM RATINGS Rating Power supply voltage Supply voltage difference Digital input voltage Storage temperature Symbol VCCA, VCCD VCCD - VCCA VID TSTG Value -0.5 to +7.0 1.5 -0.5 to +7.0 -55 to +125 Unit V V V C Precautions: Permanent device damage may occur if the above Absolute Maximum Ratings are exceeded. Functional operation should be restricted to the conditions as detailed in the operational sections of this data sheet. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. s RECOMMENDED OPERATING CONDITIONS Parameter Power supply voltage Analog reference voltage High level digital Input voltage Low level digital input voltage Clock frequency Data set up time Data hold time High level clock pulse width Low level clock pulse width Phase compensation capacitance Operating temperature Symbol VCCA, VCCD (VCCA - VCCD) VCCA - VRIN VRIN VIHD VILD fCLK tSU th tWH tWL CCOMP Top Value Min. 4.75 (-0.2) 0.70 2.70 2.0 -- -- 10.0 4.0 10.0 10.0 1.0 0 Typ. 5.00 2.00 3.00 -- -- -- -- -- -- -- -- -- Max. 5.25 (0.2) 2.20 4.30 -- 0.8 30 -- -- -- -- -- 70 Unit V V V V MHz ns ns ns ns F C 5 To Top / Lineup / Index MB40968/40968V s ELECTRICAL CHARACTERISTICS (VCC = 4.75 to 5.25V, Ta = 0 to 70C) Value Unit Min. Typ. Max. -- -- -- -- -100 0 VCCA -0.015 2.938 192 -- -- -- -- -- -- -- 8 0.2 10 20 -- 4 Bit % A A A % Parameter Resolution Linearity error Reference input current High level digital input current Low level digital input current 2-channel's output voltage ratio Symbol -- LE IRIN IIND IILD FSR DC Condition -- VRIN = 3.000 (V) VIND = 2.7 (V) VILD = 0.4 (V) VCCA = 5.00 (V) VCCD = 5.00 (V) VRIN = VROUT VCCA = 5.00 (V) VCCD = 5.00 (V) VRIN = VROUT VCCA = 5.00 (V) VCCD = 5.00 (V) VRIN = 3.000 (V) Ta = 25C VCCA = 5.00 (V) VCCD = 5.00 (V) VRIN = VROUT Full-scale analog output voltage VOFS VCCA -- V Zero-scale analog output voltage Output resistance Power supply current * : VCC = 5.00 (V) VOZS RO ICC 3.008 240 54* 3.078 288 80 V mA MB40968 Reference output voltage VROUT VCCA = 5.00 (V) VCCD = 5.00 (V) 2.900 3.000 3.100 V MB40968V Reference output voltage Reference output voltage temperature constant VROUT -- -- -- VCCA -2.100 -- VCCA -2.000 100 VCCA -1.900 -- V ppm/C Switching Characteristics Parameter Minimum conversion rate Output delay time Output rise time Output fall time Settling time 6 Symbol Fs tPLH tPHL tr tf tsetLH tsetHL Condition -- CL = 15 pF Terminated A.OUT pin with 240 Terminated B.OUT pin with 240 (VCC = 4.75 to 5.25V, Ta = 0 to 70C) Value Unit Min. Typ. Max. 30 -- -- -- -- -- 10 5 5 15 -- -- -- -- -- MSPS ns ns ns ns To Top / Lineup / Index MB40968/40968V Figure 1 DAC Output Voltage Input A1-8 B1-8 (V CCA) FF V OFS Output A OUT B OUT 5.000 V 5.000 V 00 V OZS (V RIN) 3.008 V 3.000 V 1 LSB = 8 mV Figure 2 Timing Diagram t su Data Input t wH t wL 3V Clock Output 1.5V 0V th 3V 1.5V 0V 1/2 LSB 90% 50% 1/2 LSB 10% Analog Output t PLH V OZS tr t PHL t setLH t setHL tf 7 To Top / Lineup / Index MB40968/40968V Figure 3 Digital Input Equivalent Circuit (A1 to A8, B1 to B8, CLKA, CLKB) V CCD 50 k 50 k Degital Input Threshold Voltage 1.4 V D.GND Figure 4 Analog Output Equivalent Circuit (AOUT, BOUT) Figure 5 MB40968 Reference Output Voltage (VROUT) V CCA V CCA R 0 = 240 4 k Analog Output IO A.GND A.GND 6 k V ROUT Figure 6 MB40968V Reference Output Voltage (VROUT) V CCA B.G.R RS* V ROUT + Note*:Reference for preventing over current when short circuit with GND. 8 To Top / Lineup / Index MB40968/40968V The relations between Digital input code and Analog output voltage of MB40968/40968V are ideally indicated as follows. 255 - N AOUTN ( BOUTN ) = VCCA - ------------------- x ( VCCA - VRIN ) 256 VOFS = VCCA 255 VOZS = VCCA - --------- x ( VCCA - VRIN ) 256 N: 0 to 255 Digital Input Code Output Voltage Ratio between 2 channels is calculated as follows. VOFS ( A ) - VOZS ( A ) FSR = ------------------------------------------------- - 1 x 100% VOFS ( B ) - VOZS ( B ) 9 To Top / Lineup / Index MB40968/40968V s TYPICAL CONNECTION EXAMPLE 5V 2.2H 2.2H 0.01F 47F 47F 0.01F V CCD A 1 to A 8 DATA Input B 1 to B 8 V CCA A OUT B OUT CLK Input CLK A CLK B D.GND V RIN V ROUT COMP A.GND 1F 10 To Top / Lineup / Index MB40968/40968V s PRECAUTIONS 1. Inter-channel Crosstalk The MB88361 is a 2-channel D/A converter, requiring the use of special mounting methods to minimize crosstalk between analog output pins. Specifically, it is recommended that PC board designs should emphasize the prevention of large coupling capacities between analog output lines. (See sTYPICAL CHARACTERISTIC CURVES.) 2. Prevention of Switching Noise To reduce superimposed switching noise on the analog output signal to an absolute minimum, it is recommended that a noise limiting capacitor between the VCCA and VCCD pins be placed as close as possible to the pins and connected to the A.GND and D.GND pins. 3. Power Supply Patterns Power supply patterns connected to the A.GND and B.GND pins should be as possible in order to reduce parasitic impedance. 11 To Top / Lineup / Index MB40968/40968V s TYPICAL CHARACTERISTIC CURVES Figure 7 Power Supply Current vs. Operating Temperature 100 Power Supply Current I CC(mA) V CC=5.25 V V RIN=V ROUT 80 Linearity Error |LE|(%) Figure 8 Linearity Error vs. Operating Temperature 0.2 V CC=5.00 V V RIN=3.000 V 0.15 60 0.1 40 20 0.05 0 -25 0 25 50 75 100 0 -25 0 25 50 75 100 Operating Temperature Ta(C) Operating Temperature Ta(C) Figure 9 Output Resistance vs. Operating Temperature 300 Figure 10 Full-Scale Analog Output Voltage vs. Operating Temperature Full-Scale Analog Output Voltage V OFS(V) V CC (reference) -2 V CC=5.00 V V RIN=V ROUT Output Resistance R O() 280 260 -4 240 -6 220 -8 200 -25 0 25 50 75 100 -10 -25 0 25 50 75 100 Operating Temperature Ta(C) Operating Temperature Ta(C) Zero-Scale Analog Output Voltage V OZS(V) Figure 11 Zero-Scale Analog Output Voltage vs. Operating Temperature 3.100 V CC=5.00 V V RIN=3.000 V 3.050 Figure 12 MB40968 Reference Output Voltage vs. Operating Temperature 3.100 Reference Output Voltage V ROUT(V) V CC=5.00 V 3.050 3.000 3.000 2.950 2.950 2.900 -25 0 25 50 75 100 2.900 -25 0 25 50 75 100 Operation Temperature Ta(C) Operating Temperature Ta(C) (Continued) 12 To Top / Lineup / Index MB40968/40968V Figure 13 MB40968V Reference Output Voltage vs. Operating Temperature 3.200 Reference Output Voltage V ROUT(V) V CC=5.00 V 3.100 Power Supply Voltage-Analog Reference Voltage [V CC-V ROUT](V) Figure 14 MB40968V Analog Reference Voltage vs. Power Supply Voltage 2.200 Ta=+25C 2.100 3.000 2.000 2.900 1.900 2.800 -25 0 25 50 75 100 1.800 3.5 4.0 4.5 5.0 5.5 6.0 Operating Temperature Ta(C) Power Supply Voltage V CC(V) Figure 15 Data Set Up Time vs. Operating Temperature 10 V CC=5.00 V Data Set Up Time t SU(ns) Data Set Up Time t SU(ns) 8 Figure 16 Data Set Up Time vs. Power Supply Voltage 10 Ta=+25C 8 6 6 4 4 2 2 0 -25 0 25 50 75 100 0 3.5 4.0 4.5 5.0 5.5 6.0 Operating Temperature Ta(C) Power Supply Voltage V CC(V) Figure 17 Data Hold Time vs. Operating Temperature 6 V CC=5.00 V Data Hold Time t h(ns) Data Hold Time t h(ns) 4 Figure 18 Data Hold Time vs. Power Supply Voltage 6 Ta=+25C 4 2 2 0 0 -2 -2 -4 -25 0 25 50 75 100 -4 3.5 4.0 4.5 5.0 5.5 6.0 Operating Temperature Ta(C) Power Supply Voltage V CC(V) (Continued) 13 To Top / Lineup / Index MB40968/40968V (Continued) Figure 19 Output Rise, Fall Time vs. Operating Temperature Output Rise Time t r Output Fall Time t f (ns) 20 V CC=5.00 V V RIN=V ROUT C L=15 pF Figure 20 Output Rise, Fall Time vs. Power Supply Voltage Output Rise Time t r Output Fall Time t f(ns) 20 Ta=25C V RIN=V ROUT C L=15 pF OUTPUT OPEN (2 V amplitude) tr tf 8 tr 4 OUTPUT 240 (1 V amplitude) 0 3.5 4.0 4.5 tf 16 16 12 tr tf OUTPUT OPEN (2 V amplitude) tf 12 8 tr 4 0 -25 OUTPUT 240 (1 V amplitude) 50 75 100 0 25 5.0 5.5 6.0 Operating Temperature Ta(C) Power Supply Voltage V CC(V) Figure 21 Output Delay Time vs. Operating Temperature 20 Output Delay Time t PHL,t PLH(ns) V CC=5.00 V V RIN=V ROUT C L=15 pF Figure 22 Output Delay Time vs. Power Supply Voltage 20 Output Delay Time t PHL,t PLH(ns) Ta=25C V RIN=V ROUT C L=15 pF 16 16 12 OUTPUT OPEN (2 V amplitude) 12 OUTPUT OPEN (2 V amplitude) 8 OUTPUT 240 (1 V amplitude) 8 OUTPUT 240 (1 V amplitude) 0 25 50 75 100 4 4 0 -25 0 3.5 4.0 4.5 5.0 5.5 6.0 Operating Temperature Ta(C) Power Suppry Voltage V CC(V) Figure 23 Clock Pulse Width vs. Operating Temperature 10 V CC=5.00 V Clock Pulse Width t W (ns) Figure 24 Clock Pulse Width vs. Power Supply Voltage 10 Ta=25C Clock Pulse Width t W (ns) 8 8 6 6 4 t WL t WH 4 t WL 2 t WH 2 0 -25 0 25 50 75 100 0 3.5 4.0 4.5 5.0 5.5 6.0 Operating Temperature Ta(C) Power Supply Voltage V CC(V) 14 To Top / Lineup / Index MB40968/40968V s PACKAGE DIMENSION 28 pin, Plastic SH-DIP (DIP-28P-M03) 26.00 -0.30 1.024 +.008 -.012 +0.20 INDEX-1 9.100.25 (.358.010) INDEX-2 4.85(.191)MAX 0.51(.020)MIN 0.250.05 (.010.002) 3.00(.118)MIN 0.450.10 (.018.004) 1.00 -0 +0.50 +.020 .039 -0 1.7780.18 (.070.007) 1.778(.070) MAX 10.16(.400) TYP 15MAX 23.114(.910)REF C 1994 FUJITSU LIMITED D28012S-3C-3 Dimensions in mm (inches). (Continued) 15 To Top / Lineup / Index MB40968/40968V (Continued) 28 pin, Plastic SOP (FTP-28P-M01) 17.75 -0.20 .699 -.008 +0.25 +.010 2.80(.110)MAX 0.05(.002)MIN (STAND OFF) 7.600.30 10.200.40 (.299.012) (.402.016) 1 PIN INDEX 9.200.30 (.362.012) 1.27(.050)TYP 0.450.10 (.018.004) O0.13(.005) M 0.15 -0.02 +.002 .006 -.001 +0.05 0.500.20 (.020.008) Details of "A" part 0.20(.008) 0.10(.004) "A" 0.60(.024) 0.18(.007)MAX 0.68(.027)MAX 16.51(.650)REF C 1994 FUJITSU LIMITED F28005S-5C-4 Dimensions in mm (inches). 16 To Top / Lineup / Index FUJITSU LIMITED For further information please contact: Japan FUJITSU LIMITED Corporate Global Business Support Division Electronic Devices KAWASAKI PLANT, 4-1-1, Kamikodanaka Nakahara-ku, Kawasaki-shi Kanagawa 211-88, Japan Tel: (044) 754-3763 Fax: (044) 754-3329 North and South America FUJITSU MICROELECTRONICS, INC. Semiconductor Division 3545 North First Street San Jose, CA 95134-1804, U.S.A. Tel: (408) 922-9000 Fax: (408) 432-9044/9045 Europe FUJITSU MIKROELEKTRONIK GmbH Am Siebenstein 6-10 63303 Dreieich-Buchschlag Germany Tel: (06103) 690-0 Fax: (06103) 690-122 Asia Pacific FUJITSU MICROELECTRONICS ASIA PTE. LIMITED #05-08, 151 Lorong Chuan New Tech Park Singapore 556741 Tel: (65) 281-0770 Fax: (65) 281-0220 All Rights Reserved. The contents of this document are subject to change without notice. Customers are advised to consult with FUJITSU sales representatives before ordering. The information and circuit diagrams in this document presented as examples of semiconductor device applications, and are not intended to be incorporated in devices for actual use. Also, FUJITSU is unable to assume responsibility for infringement of any patent rights or other rights of third parties arising from the use of this information or circuit diagrams. FUJITSU semiconductor devices are intended for use in standard applications (computers, office automation and other office equipment, industrial, communications, and measurement equipment, personal or household devices, etc.). CAUTION: Customers considering the use of our products in special applications where failure or abnormal operation may directly affect human lives or cause physical injury or property damage, or where extremely high levels of reliability are demanded (such as aerospace systems, atomic energy controls, sea floor repeaters, vehicle operating controls, medical devices for life support, etc.) are requested to consult with FUJITSU sales representatives before such use. The company will not be responsible for damages arising from such use without prior approval. Any semiconductor devices have inherently a certain rate of failure. You must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating conditions. If any products described in this document represent goods or technologies subject to certain restrictions on export under the Foreign Exchange and Foreign Trade Control Law of Japan, the prior authorization by Japanese government should be required for export of those products from Japan. F9703 (c) FUJITSU LIMITED Printed in Japan 24 |
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