HD74HC4052, HD74HC4053 Dual 4-channel Analog Multiplexers/Demultiplexers Triple 2-channel Analog Multiplexers/Demultiplexers REJ03D0649-0200 (Previous ADE-205-536) Rev.2.00 Mar 30, 2006 Description HD74HC4052: This device connects together the outputs of 4 switches in two sets, thus achieving a pair of 4 channel multiplexers. The binary code placed on the A, and B select lines determine which switch in each 4 channel section is “on”, connecting one of the four inputs in each section to its common output. This enables the implementation of a 4 channel differential multiplexer. HD74HC4053: This device contains 6 switches whose outputs are connected together in pairs, thus implementing a triple 2 channel multiplexer, or the equivalent of 3 single-pole-double throw configuration. Each of the A, B, or C select lines independently controls one pair of switches, selecting one of the two switches to be “on”. Features • High Speed Operation • Wide Operating Voltage: VCC = 2 to 6 V • Low Quiescent Supply Current: ICC (static) = 4 µA max (Ta = 25°C) • Ordering Information Part Name Package Code (Previous Code) PRDP0016AE-B (DP-16FV) Package Type HD74HC4052P HD74HC4053P HD74HC4052FPEL HD74HC4053FPEL DILP-16 pin HD74HC4052RPEL HD74HC4053RPEL Package Abbreviation Taping Abbreviation (Quantity) P — SOP-16 pin (JEITA) PRSP0016DH-B (FP-16DAV) FP EL (2,000 pcs/reel) SOP-16 pin (JEDEC) PRSP0016DG-A (FP-16DNV) RP EL (2,500 pcs/reel) Note: Please consult the sales office for the above package availability. Function Table Control Inputs ON Switch Inhibit C* Select B A L L L L L L L H Y0 Y1 X0 X1 Z0 Z0 Y0 Y0 X0 X1 L L L L H H L H Y2 Y3 X2 X3 Z0 Z0 Y1 Y1 X0 X1 L L H H L L L H — — Z1 Z1 Y0 Y0 X0 X1 L L H H H H L H — — Z1 Z1 Y1 Y1 X0 X1 X — H Note: 1 X X 1. Not applicable for HD74HC4052 X = Irrelevant Rev.2.00 Mar 30, 2006 page 1 of 11 HD74HC4052 HD74HC4053 — HD74HC4052, HD74HC4053 Pin Arrangement HD74HC4052 Y0 1 Y2 2 Y2 X2 15 X2 Y 3 Y X1 14 X1 Y3 4 Y3 X 13 X Y1 5 Y1 X0 12 X0 Inhibit 6 Inhibit X3 11 X3 VEE 7 A 10 A 16 VCC Y0 B GND 8 9 B (Top view) HD74HC4053 Y1 1 16 VCC Y1 Y0 2 Y0 Y 15 Y Z1 3 Z1 X 14 X Z 4 Z X1 13 X1 Z0 5 Z0 X0 12 X0 Inhibit 6 Inhibit A 11 A VEE 7 B 10 B C GND 8 9 (Top view) Rev.2.00 Mar 30, 2006 page 2 of 11 C HD74HC4052, HD74HC4053 Block Diagram HD74HC4052 VCC Inh A Binary to 1-of-4 Decoder with Inhibit Level Converter B GND VEE X0 X1 X X2 X3 Y0 Y1 Y Y2 Y3 HD74HC4053 VCC Inh A B C Binary to 1-of-2 Decoder with Inhibit Level Converter GND VEE X0 X X1 Y0 Y Y1 Z0 Z Z1 Absolute Maximum Ratings Item Symbol Rating Unit VCC VCC – VEE –0.5 to +7.0 –0.5 to +7.0 V V VIN VI/O GND – 0.5 to VCC + 0.5 VEE – 0.5 to VCC + 0.5 V V ICC IGND +50 –50 mA mA Switch I/O current (per pin) Control input diode current II/O IIK ±25 ±20 mA mA Switch I/O diode current Power dissipation IIOK PT ±20 500 mA mW Storage temperature range Tstg –65 to +150 °C Supply voltage Control input voltage Switch I/O voltage Supply current (VCC) (GND) Rev.2.00 Mar 30, 2006 page 3 of 11 HD74HC4052, HD74HC4053 Recommended Operating Conditions Item Symbol Min Typ Max Unit VCC – VEE GND – VEE 2 –4 — — 6 0 V V Control input voltage Switch I/O voltage VIN VI/O 0 VEE — — VCC VCC V V Operating temperature Input rise/fall time Topr tr , tf –40 0 — — +85 1000 °C ns 0 0 — — 500 400 ns ns Supply voltage VCC = 2.0 V VCC = 4.5 V VCC = 6.0 V Electrical Characteristics (VEE = GND) Item Control input voltage Symbol VCC (V) VIH VIL ON resistance RON Min Ta = 25°C Typ Max Ta = –40 to+85°C Min Max 2.0 4.5 1.5 3.15 — — — — 1.5 3.15 — — 6.0 2.0 4.2 — — — — 0.5 4.2 — — 0.5 4.5 6.0 — — — — 1.35 1.8 — — 1.35 1.8 2.0 4.5 — — 2000 120 5000 180 — — 6250 225 6.0 2.0 — — 100 200 170 800 — — 210 1000 4.5 6.0 — — 80 70 150 140 — — 190 175 2.0 4.5 — — 50 13 — 40 — — — 50 Unit Test Conditions V V Ω VINH = VIL VI/O = VCC to VEE II/O ≤ 2 mA Ω VINH = VIL VI/O = VCC or VEE VI/O ≤ 2 mA Ω VINH = VIL VI/O = VCC to VEE II/O ≤ 2 mA ∆ON resistance between any two channels ∆RON OFF channel leakage current (switch off) IS (OFF) 6.0 6.0 — — 10 — 20 ±0.1 — — 25 ±1.0 µA VINH = VIL OFF channel leakage current (switch on) Control input current IS (ON) 6.0 — — ±0.1 — ±1.0 µA VINH = VIL Iin 6.0 — — ±0.1 — ±1.0 µA Vin = VCC or GND ICC 6.0 — — 4.0 — 40 µA Vin = VCC or GND Quiescent supply current Rev.2.00 Mar 30, 2006 page 4 of 11 HD74HC4052, HD74HC4053 Switching Characteristics (CL = 50 pF, Input tr = tf = 6 ns, VEE = GND) Ta = 25°C Item Propagation delay time Symbol VCC (V) tPLH tPHL Propagation delay time tPLH tPHL Output enable time tZH tZL Output disable time tHZ tLZ Ta = –40 to +85°C 2.0 Min — Typ 25 Max 60 Min — Max 75 4.5 6.0 — — 6 5 12 10 — — 15 13 2.0 4.5 — — 25 6 60 12 — — 75 15 6.0 2.0 — — 5 50 10 153 — — 13 191 4.5 6.0 — — 16 14 30 26 — — 38 33 2.0 4.5 — — 50 16 153 30 — — 191 38 6.0 2.0 — — 14 50 26 153 — — 33 191 4.5 6.0 — — 14 12 30 26 — — 38 33 2.0 4.5 — — 50 14 153 30 — — 191 38 6.0 2.0 — — 12 40 26 153 — — 33 191 4.5 6.0 — — 17 14 30 26 — — 38 33 2.0 4.5 — — 40 17 153 30 — — 191 38 Unit ns Test Conditions RL = 10 kΩ Switch input to switch output ns ns RL = 10 kΩ Control input to switch output ns ns RL = 1 kΩ ns ns RL = 1 kΩ ns Control input capacitance Cin 6.0 — — — 14 5 26 10 — — 33 10 pF Switch input capacitance Output capacitance (Common pin) Cin 5.0 — 5 — — — pF Cout 5.0 — 12 — — — pF HD74HC4052 Cin–out 5.0 5.0 — — 6 0.6 — — — — — — pF HD74HC4053 HD74HC4052 CPD 5.0 5.0 — — 0.5 32.0 — — — — — — pF HD74HC4053 HD74HC4052 5.0 4.5 — — 17.0 0.1 — — — — — — % Frequency response channel “ON” (Sine wave input) Feed through attenuation 4.5 — 95 — — — 4.5 — –50 — — — Cross talk between control input and switch I/O 2.0 4.5 — — 25 50 — — — — — — 6.0 4.5 — — 75 –50 — — — — — — 2.0 4.5 — — 20 30 — — — — — — 6.0 — 30 — — — Feed through capacitance Power dissipation capacitance Sine wave distortion Cross talk between any two switches Maximum control frequency Rev.2.00 Mar 30, 2006 page 5 of 11 HD74HC4053 fin = 1 kHz, Vin = 4 VP-P RL = 10 kΩ, CL = 50 pF MHz fin = 1 MHz, 20 log10 VOS/VIS = –3 dB RL = 50 Ω, CL = 10 pF dB RL = 600 Ω, CL = 50 pF, fin = 1 MHz mV RL = 600 Ω, CL = 15 pF, fin = 1 MHz dB RL = 600 Ω, CL = 50 pF, fin = 1 MHz MHz RL = 1 kΩ, CL = 15 pF Vout = 1/2 (VCC) HD74HC4052, HD74HC4053 Test Circuit Maximum Control Frequency VCC VCC VC VC 0V VCC Vout Vin • VCC VEE GND RL = 1 kΩ CL = 15 pF Vout Vcc/2 Cross talk (Between Any Two Switches) VCC VCC (ON) Vin fin 0.1 µF Rin = 600 Ω VEE Vout1 RL = 600 Ω GND CL = 50 pF Vin (Sine Wave) VCC/2 (Vin = 0 dBm, f = 1 MHz) VCC VCC (OFF) Rin = 600 Ω VEE Vout2 RL = 600 Ω GND CL = 50 pF VCC/2 Cross talk (Control Input to Switch Output) tr VCC VC VCC VCC Vin Rin = 600 Ω VEE tf 90% Vout GND VCC/2 Rev.2.00 Mar 30, 2006 page 6 of 11 RL = 600 Ω VCC/2 CL = 50 pF GND 10% (f = 1 MHz) tr = tr = 6 ns HD74HC4052, HD74HC4053 Feed through Attenuation VCC Vin (Sine Wave) 0.1 µF VCC (OFF) Vin fin Rin = 600 Ω VEE Vout (Vin = 0 dBm, f = 1 MHz) RL = 600 Ω GND VCC/2 CL = 50 pF VCC/2 Sine Wave Distortion VCC Vin (Sine Wave) fin VCC (ON) Vin 10 µF VEE Vout RL = 10 kΩ GND (Vin = 4 Vp-p, f = 1 kHz) CL = 50 pF VCC/2 Cin, Cout, Cin–out (Input, Output, and Feed through Capacitance) Cin-out 5V VCC Input Pin (OFF) VEE Commom Pin GND Cout Cin Frequency Response Channel ON VCC fin (Sine Wave) fin VCC (ON) Vin 0.1 µF VEE GND Vout RL = CL = 50 Ω 10 pF VCC/2 Rev.2.00 Mar 30, 2006 page 7 of 11 (Vout = 0 dBm, f = 1 MHz) HD74HC4052, HD74HC4053 RON: ON Resistance VCC Vin VCC (ON) I/O O/I Vout GND VEE V VI-O IS (OFF): OFF Channel Leakage Current (Switch OFF) VCC Vin = VCC or GND VCC I/O A Vout = VSS or VCC (OFF) VEE GND IS (ON): OFF Channel Leakage Current (Switch ON) VCC VCC I/O A Vin = VCC or GND Vout (ON) VEE OPEN GND tPLH, tPHL: Propagation Delay Time (Switch Input to Switch Output) tr tf VCC VCC VCC (ON) Vin VEE GND 90% Vin Vout RL = 10 kΩ 50% GND CL = 50 pF 10% tPHL VOH 50% Vout VOL Rev.2.00 Mar 30, 2006 page 8 of 11 tPLH HD74HC4052, HD74HC4053 tPLH, tPHL: Propagation Delay Time (Control Input to Switch Output) VCC VC = Vin VCC VC VCC or GND (Switch Input) VCC Vout Common Pin GND or VCC GND VEE RL = 10 kΩ 50% GND tPLH tPHL VOH CL = 50 pF Vout 50% VOL tZH, tZL/tHZ, tLZ: Output Enable and Disable Time tf VCC VCC VINH = Vin VINH 50% Vout VCC 90% 10% GND VCC VEE tr GND RL = 1 kΩ tZH VOH CL = 50 pF 90% Vout GND GND 50% VOL VCC VOH tZL tLZ 50% Vout VOL Rev.2.00 Mar 30, 2006 page 9 of 11 tHZ 10% HD74HC4052, HD74HC4053 Package Dimensions JEITA Package Code P-DIP16-6.3x19.2-2.54 RENESAS Code PRDP0016AE-B Previous Code DP-16FV MASS[Typ.] 1.05g D 9 E 16 1 8 b3 0.89 A1 A Z L Reference Symbol θ bp e e1 D E A A1 bp b3 c θ e Z L c e1 ( Ni/Pd/Au plating ) JEITA Package Code P-SOP16-5.5x10.06-1.27 RENESAS Code PRSP0016DH-B *1 Previous Code FP-16DAV Dimension in Millimeters Min Nom Max 7.62 19.2 20.32 6.3 7.4 5.06 0.51 0.40 0.48 0.56 1.30 0.19 0.25 0.31 0° 15° 2.29 2.54 2.79 1.12 2.54 MASS[Typ.] 0.24g D F 16 NOTE) 1. DIMENSIONS"*1 (Nom)"AND"*2" DO NOT INCLUDE MOLD FLASH. 2. DIMENSION"*3"DOES NOT INCLUDE TRIM OFFSET. 9 c HE *2 E bp Index mark Terminal cross section ( Ni/Pd/Au plating ) 1 Z 8 e *3 bp x Reference Symbol M A L1 A1 θ y L Detail F Rev.2.00 Mar 30, 2006 page 10 of 11 D E A2 A1 A bp b1 c c1 θ HE e x y Z L L1 Dimension in Millimeters Min Nom Max 10.06 10.5 5.50 0.00 0.10 0.20 2.20 0.34 0.40 0.46 0.15 0.20 0.25 0° 8° 7.50 7.80 8.00 1.27 0.12 0.15 0.80 0.50 0.70 0.90 1.15 HD74HC4052, HD74HC4053 JEITA Package Code P-SOP16-3.95x9.9-1.27 RENESAS Code PRSP0016DG-A *1 Previous Code FP-16DNV MASS[Typ.] 0.15g D F 16 NOTE) 1. DIMENSIONS"*1 (Nom)"AND"*2" DO NOT INCLUDE MOLD FLASH. 2. DIMENSION"*3"DOES NOT INCLUDE TRIM OFFSET. 9 c *2 Index mark HE E bp Terminal cross section ( Ni/Pd/Au plating ) 1 Z Reference Symbol 8 e *3 bp x M A L1 A1 θ L y Detail F Rev.2.00 Mar 30, 2006 page 11 of 11 D E A2 A1 A bp b1 c c1 θ HE e x y Z L L1 Dimension in Millimeters Min Nom Max 9.90 10.30 3.95 0.10 0.14 0.25 1.75 0.34 0.40 0.46 0.15 0.20 0.25 0° 8° 5.80 6.10 6.20 1.27 0.25 0.15 0.635 0.40 0.60 1.27 1.08 Sales Strategic Planning Div. Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Keep safety first in your circuit designs! 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. 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