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HD29026A/HD29027 Dual CCD Drivers REJ03D0302-0200Z (Previous ADE-205-001 (Z)) Rev.2.00 Jul.16.2004 Description HD29026A and HD29027 include two on-chip drivers on a single chip, making it the optimal choice as a CCD driver. Operation is provided with a TTL level input, and output current of 1 A is available for both sink and source. Features * High speed output rise and fall (20 ns typ) at load capacitance (CL) of 1000 pF * Direct drive of input block by TTL eliminates the need for external components * Output swing voltage of 12 V; output current of 1 A available for both sink and source * Output wave cross point 50% typ * Ordering Information Part Name HD29026AFPEL HD29027FPEL Package Type SOP-8 pin (JEITA) SOP-8 pin (JEITA) Package Code FP-8DGV FP-8DGV FP FP Package Abbreviation Taping Abbreviation (Quantity) EL (2,500 pcs/reel) EL (2,500 pcs/reel) Function Table Input A H L Note: H: High level L: Low level L H Output Y Pin Arrangement NC 1 1A 2 GND 3 2A 4 8 NC 7 1Y 6 V CC 5 2Y Rev.2.00, Jul.16.2004, page 1 of 11 HD29026A/HD29027 Absolute Maximum Ratings Item Supply voltage Input voltage Output peak current Operating temperature range Storage temperature range Junction temperature Total dissipation HD29026A HD29027 VCC* 1 Symbol 15 10 7 1 Rating V V A C C C W Unit VI lO(peak) Ta Tstg Tj PT*2 -20 to +75 -65 to +150 150 0.735 Notes: 1. If no value is specified, the voltage is defined by the GND pin. 2. Value when Ta = 25C. Heat dissipation is required for large-capacitance, high-frequency drivers, so derating of 5.9 mW/C are required. 1.0 0.735 PT (W) 0.5 0.44 0 -20 0 25 Ta (C) 50 75 Figure 1 Package Derating Curves Recommended Operating Conditions Item Supply voltage Operating temperature HD29026A HD29027 Symbol VCC VCC Ta 8 4.5 -20 Min 12 6 25 Typ 13 8 75 Max V C Unit Rev.2.00, Jul.16.2004, page 2 of 11 HD29026A/HD29027 Recommonded Operating Frequency Area HD29026A VCC = 13 (V) VCC = 12.0 (V) Ta = 75 (C) VCC = 9.0 (V) VCC = 8.0 (V) 1,000 Load Capacitance (pF) 750 500 250 0 0.5 1.0 3.0 5.0 10.0 20.0 Operating Frequency (MHz) HD29027 VCC = 8.0 (V) VCC = 6.0 (V) Ta = 75 (C) VCC = 4.5 (V) 1,000 Load Capacitance (pF) 750 500 250 0 0.5 1.0 3.0 5.0 10.0 20.0 Operating Frequency (MHz) Rev.2.00, Jul.16.2004, page 3 of 11 HD29026A/HD29027 Electrical Characteristics (Ta = -20 to +75C) Item Input voltage Output voltage Input current HD29026A Supply current HD29027 HD29026A HD29027 HD29026A HD29027 Input current Input clamp voltage II VIK Symbol VIH VIL VOH VOL IIH IIL ICCH ICCL Min 2.0 -- VCC-1 -- -- -- -- -- -- -- -- -- -- Typ -- -- -- -- -- -- -- -- -- -- -- -- -- Max -- 0.6 -- 0.5 20 -100 -200 12 20 20 30 100 -1.5 A V VI = 7 V IIN = -18 mA V V A VIL = 0.6 V, IOH = -1 mA VIH = 2.0 V, IOL = 1 mA VI = 2.7 V VI = 0.4 V Unit Test Conditions mA Note: HD29026A: VCC = 8 to 13 V HD29027: VCC = 4.5 to 8 V Switching Characteristics (Ta = 25C) Item Fall propagation delay time Rise propagation delay time HD29027 Fall (transition) time HD29026A HD29027 HD29026A HD29027 HD29026A HD29027 Rise (transition) time HD29026A HD29027 HD29026A HD29027 HD29026A HD29027 tTHL HD29026A HD29027 HD29026A Symbol tPHL Min -- -- -- -- -- -- -- -- -- -- -- -- -- -- tTLH -- -- -- -- -- -- -- -- -- -- Typ 16 11 10 18 13 10 17 12 9 20 15 12 25 20 20 15 10 9 21 16 12 22 17 20 Max 20 15 15 25 20 15 21 16 14 23 18 17 40 35 25 20 15 14 25 20 17 30 25 25 CL = 500 pF ns CL = 1000 pF ns CL = 250 pF Unit ns CL = 1000 pF Test Conditions VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V VCC = 8 V VCC = 12 V VCC = 6 V tPLH ns CL = 1000 pF CL = 500 pF CL = 250 pF CL = 1000 pF Rev.2.00, Jul.16.2004, page 4 of 11 HD29026A/HD29027 Switching Time Test Method Test circuit VCC Input Pulse Generator Zout = 50 Output CL Note: CL includes stray capacitance of probe and other tools Waveforms 10 ns 10 ns 90% 1.5 V Input 10% t PHL 90% 1.5 V 10% t PLH 3V 0V Output 90% 90% VOH 10% 10% VOL t TLH t THL Note: Input waveform: f = 1 MHz, duty cycle = 50% Rev.2.00, Jul.16.2004, page 5 of 11 HD29026A/HD29027 Output Timing Characteristics (Ta = 25C) Item Output wave cross point Symbol VX 30 30 30 HD29027; VCC = 6 V Min 50 50 50 Typ 70 70 70 Max % Unit Test Conditions CL = 250 pF CL = 500 pF CL = 1000 pF Output Timing Characteristics Test Method (HD29027) Test circuit VCC 1A 2A 1Y Pulse Generator Zout = 50 CL CL 2Y Note: CL includes stray capacitance of probe and other tools Waveform 10 ns 2A or 1A 90% 10% 90% 1.5 V 10% 90% 10% 10 ns 90% 1.5 V 10% 3V 1A or 2A 0V 1Y or 2Y 2Y or 1Y 70% VX 30% 70% 30% 70% 30% 70% VX 30% V OH VOL Note: Input waveform: f = 1 MHz, duty cycle = 50% Rev.2.00, Jul.16.2004, page 6 of 11 HD29026A/HD29027 Output Timing Characteristics HD29027 VCC = 6 V Input GND 2 V/div Output GND 10 ns/div Rev.2.00, Jul.16.2004, page 7 of 11 HD29026A/HD29027 Typical Characteristic Curves Supply current vs. operating frequency (HD29026A) 80 Ta = 25C V CC = 9 V 1 circuit operation 80 C L = 1000 pF T a = 25C C L = 1000 pF V CC = 12 V 1 circuit operation 500 pF Supply current (mA) 60 500 pF Supply current (mA) 60 40 40 250 pF 20 250 pF 0 pF 20 0 pF 0 0.1 0.2 0.5 1.0 2 5 10 0 0.1 0.2 0.5 1.0 2 5 10 Operating frequency (MHz) Operating frequency (MHz) 80 T a = 25C V CC = 9 V 2 circuit operations 80 T a = 25C V CC = 12 V 2 circuit operations Supply current (mA) Supply current (mA) 60 C L = 1000 pF 60 C L = 1000 pF 40 500 pF 250 pF 40 500 pF 250 pF 20 0 pF 20 0 pF 0 0.1 0.2 0.5 1.0 2 5 10 0 0.1 0.2 0.5 1.0 2 5 10 Operating frequency (MHz) Operating frequency (MHz) Rev.2.00, Jul.16.2004, page 8 of 11 HD29026A/HD29027 Supply current vs. operating frequency (HD29027) 150 T a = 25C V CC = 6 V 1 circuit operation 150 T a = 25C V CC = 6 V 2 circuit operation Supply current (mA) Supply current (mA) 100 100 C L = 1000 pF C L = 1000 pF 500 pF 50 500 pF 250 pF 0 pF 50 250 pF 0 pF 0 0.1 0.2 0.5 1.0 2 5 10 Operating frequency (MHz) 0 0.1 0.2 0.5 1.0 2 5 10 Operating frequency (MHz) Cautions (HD29026A only) The short output rise and fall time, as well as the large output amplitude of this product tends to generate overshooting and undershooting. The connection of 5 to 15 damping resistance (RD) to the output as illustrated in figure 2 serves to increase the output rise and fall time, making it possible to reduce the chance of overshooting and undershooting. Figure 3 shows the characteristics that result for a damping resistance (RD) of 10 . VCC Input RD Output Pulse Generator Zout = 50 CL Note: CL includes stray capacitance of probe and other tools Figure 2 Rev.2.00, Jul.16.2004, page 9 of 11 HD29026A/HD29027 tTLH vs CL 40 30 t TLH (ns) 20 10 0 200 400 600 C L (pF) 800 1000 Ta = 25 C VCC = 12 V RD = 10 0 40 30 t TLH (ns) 20 10 0 200 400 600 C L (pF) 800 1000 Ta = 25 C VCC = 8 V RD = 10 0 tTHL vs CL 40 30 t THL (ns) 20 10 0 200 400 600 C L (pF) 800 1000 Ta = 25 C VCC = 12 V RD = 10 0 40 30 t THL (ns) 20 10 0 200 400 600 C L (pF) 800 1000 Ta = 25 C VCC = 8 V RD = 10 0 Figure 3 Rev.2.00, Jul.16.2004, page 10 of 11 HD29026A/HD29027 Package Dimensions 4.85 5.25 Max 5 8 4.4 Unit: mm 1 4 *0.20 0.05 2.03 Max 0.75 Max 0.25 6.50 + 0.15 - 1.05 0 - 8 0.10 0.10 1.27 *0.40 0.05 0.25 0.60 + 0.18 - 0.15 0.12 M *This dimension include Pd plating Package Code JEDEC JEITA Mass (reference value) FP-8DGV -- Conforms 0.10 g Rev.2.00, Jul.16.2004, page 11 of 11 Sales Strategic Planning Div. Keep safety first in your circuit designs! Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan 1. Renesas Technology Corp. puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap. Notes regarding these materials 1. These materials are intended as a reference to assist our customers in the selection of the Renesas Technology Corp. product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Renesas Technology Corp. or a third party. 2. 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