rohm BU4066BCFV technical Note
Contents
1. Voo GND Hy 0 HH 10 tezH tPHZ tPzi tPLZ tPZH Time up to 50 of input 50 of the tPZH Time up to 50 of input 50 of the rise time of output waveform fall time of output waveform tPHZ Time up to 50 of input 50 of the tPHZ Time up to 10 of input 10 of the fall time of output waveform rise time of output waveform 2117 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV O Electrical Characteristics BU4066BC DC Characteristics Unless otherwise noted VSS 0 V Ta 25 C Standard Value Technical Note Parameter Symbol Unit Condition Fig No MIN TYP MAX VDDIV 3 9 5 Input H voltage VIH 7 0 V 10 Input L voltage VIL 3 0 V 10 Input H current NA 0 3 UA 15 VIH 15 V Input L current HL 0 3 UA 15 VIL O V VIN O 25 V 150 600 5 RL 10 KQ VIN 2 5 V 500 950 5 RL 10 kQ l VIN 5 V ON resistance RON 200 600 Q 5 RL 10 KQ 1 VIN 5 V 120 500 10 RL 10 kQ VIN 7 5 V 80 280 15 RL 10 k0 VI VDD 2 ON resistance defluxion ARON 10 Q 10 RL 10 kQ 5 15 VIN 15 V Channel OFF OFF i i ye ae VOUT 0 V i Leakage current i i 03 15 VIN O V l VOUT 15 V 1 0 5 Static supply current IDD 2 0 UA 102. 3 0 V 10 Input H current NA 0 3 UA 15 VIH 15 V Input L current HL 0 3 UA 15 VIL O V 1100 5 ON resistance RON 500 Q 10 41 280 15 25 5 ON resistance defluxion ARON 10 Q 10 5 15 0 3 15 pena Asi ar 0 3 a 15 i i 5 5 Static supply current IDD 10 UA 10 VI VDD or GND 15 15 Standard Value a Parameter Condition TYP Propagation delay time SW INSOUT Propagation delay time CONT OUT Propagation delay time INH OUT Maximum propagation frequency Feed through attenuation VEE 5 V Sine wave distortion VEE 5 V Input capacitance control input Input capacitance switch input VEE 5 V www rohm com 7 17 2011 08 Rev B 2011 ROHM Co Ltd All rights reserved BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV Reference Data BU4066BC Propagation Delay ns ON Resistance Propagation Delay ns 300 BU4066BC F FV 250 VDD 5 V 200 85 C 150 25 C VDD 10 V Input Voltage V Fig 1 On resistance input voltage 200 BU4066BC F FV 175 Operating Temperature Range 150 125 VDD 3 V 100 75 VDD 5 V
3. Ltd All rights reserved Propagation Delay ns Propagation Delay ns Propagation Delay ns Propagation Delay ns 50 BU4052BC F FV Operating Temperature Range 40 30 20 10 25 0 25 50 75 100 Ambient Temperature C Fig 20 propagation delay time tPLH IN OUT 500 BU4052BC F FV 400 300 a a VDD 18 V 100 Operating Temperature Range 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 23 propagation delay time tPHZ CONT OUT 500 BU4052BC F FV 400 Operating Temperature Range 300 200 100 0 25 0 25 75 Ambient Temperature C Fig 26 propagation delay time tPZH 50 INH OUT 500 BU4052BC F FV 400 Operating Temperature Range 300 VDD 3 V 200 VDD 5 V 100 VDD 10 V II eee ae q _ __ gt VDD 18 V 0 50 25 0 25 75 Ambient Temperature C Fig 29 propagation delay time tPLZ INH OUT 50 10 17 Propagation Delay ns Propagation Delay ns Propagation Delay ns Technical Note 50 BU4052BC F FV Operating Temperature Range 40 30 20 10 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 21 propagation delay time tPHL IN OUT 500 BU4052BC F FV 400 vDD 3 Y 300 VDD 5 V 200 VDD 10 V 25
4. 0 25 75 Ambient Temperature C Fig 24 propagation delay time tPLZ CONT OUT 100 500 400 300 po VDD 18 V 200 100 Operating Temperature Range 0 50 25 0 25 75 Ambient Temperature C Fig 27 propagation delay time tPHZ INH OUT 50 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV O Reference Data BU4053BC Propagation Delay ns Propagation Delay ns ON Resistance Q Propagation Delay ns 300 BU4053BC F FV 250 200 150 25 c VDD 15 V 40 C de 25 C 40 C 100 50 0 5 10 15 Input Voltage V Fig 30 ON resistance input voltage 500 BU4053BC F FV Operating Temperature Range 400 gd VDD 3 V 200 100 50 25 0 25 50 75 Ambient Temperature C Fig 33 propagation delay time tPZH 100 CONT OUT 500 BU4053BC F FV 400 Operating Temperature Range 300 VDD 3 M 200 100 F VDD 10 V 0 50 25 0 25 50 75 Ambient Temperature C Fig 36 propagation delay time tPZL CONT OUT 500 BU4053BC F FV aoo e CAPA VDD 3 300 M 200 VDD 5 V DD 10 100 VDD 18 0 50 25 0 25 50 75 Ambient Temperature C Fig 39 propagation delay time tP
5. BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV O Reference Data BU4051BC 300 BU4051BC F FV VDD 10 V 85 C vpp 15 V 25 C ON Resistance Q e al o Input Voltage V Fig 8 ON resistance input voltage 500 BU4051BC F FV 400 Operating Temperature Range gt VDD 3 V 3 300 2 2 200 pf a VDD 5 V e 100 i 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 11 propagation delay time tPZH CONT OUT 500 BU4051BC F FV 400 E Operating Temperature Range S 2 VDD 3 V 300 O S S 200 H g E VDD 5 V El 100 vpb 10 V 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 14 propagation delay time tPZL CONT OUT 500 z BU4051BC F FV gt 209 VDD 3 V Y y a 300 pri Q c VDD 5 V S 200 H le core ee 8 NI Q E a se 100 VDD 18 V Operating Temperature Range 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 17 propagation delay time tPZL INH OUT www rohm com 2011 ROHM Co Ltd All rights reserved 50 BU4051BC F FV 40 30 20 Propagation Delay ns 10 Operating Temperature Range
6. I O Analog Switch Input Output 3 X1 I O Analog Switch Input Output X Z 4 X I O Analog Switch Input Output Y 71 5 Y I O Analog Switch Input Output 6 YO I O Control Input Yole ZO 7 VEE l Power Supply VEE Y1 8 VSS Power Supply 9 CONTROL Control Input VSS El S CONTROL 10 Y1 I O Control Input 11 ZO I O Analog Switch Input Output ka 12 Z1 WO Analog Switch Input Output CONTO ore CONTROL 13 Z WO Analog Switch Input Output eee 14 W I O Analog Switch Input Output yn SIT ANG 15 WO WO Analog Switch Input Output ee yl ton 16 VDD e Power Supply ac sy COMMON e 5 e TT O X TRUTH TABLE Yo 0 HH COMMON CONTROL ON SWITCH n SO 0 WO X0 Y0 Z0 Z0O eS COMMON J 1 1 210 E m i W1 X1 Y1 Z1 O Notes for use 1 Absolute maximum ratings www rohm com An excess in the absolute maximum ratings such as supply voltage temperature range of operating conditions etc can break down the devices thus making impossible to identify breaking mode such as short circuit or an open circuit If any over rated values will expect to exceed the absolute maximum ratings consider adding circuit protection devices such as fuses Connecting the power supply connector backward Connecting of the power supply in reverse polarity can damage IC Take precautions when connecting the power supply lines An external direction diode can be added Power Supply lines Design PCB layout pattern to provide low impedance GND and
7. Input Output Analog Switch Input Output Analog Switch Input Output TRUTH TABLE INHIBIT ON SWITCH gt Power Supply ak l n 13 17 XIII TIM TIT TIM XTTPDTTITDDC O XITITI TIT II MIMI TIO 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV 3 BU4052BC Series VDDO INHIBITO AO BO LEVEL E CONVERTER BINARY TO 1 of 4 DECODER WITH INHIBIT vss O x0 O Ry X10 Ey COMMON ao od o se mir YO O t BE aa IS Y1O DI COMMON Sigg koy as a o Y30 SS 4 BU4053BC Series Y1 YO Z1 ZO INHIBIT 6 VEE VSS 8 VDDO INHIBIT O AO LEVEL BINARY TO 1 of 2 DECODER BO CONVERTER WITH INHIBIT CO a LI VEE O 00 3 COMMON ee sa x Sel COMMON Yo O ES va See Z0O a COMMON nen ETEN en www rohm com 2011 ROHM Co Ltd All rights reserved PIN FUNCTION PIN No PIN NAME Technical Note PIN FUNCTION 1 YO I O Analog Switch Input Output 2 Y2 I O Analog Switch Input Output 3 COMMON Y I O Analog Switch Input Output 4 Yo I O Analog Switch Input Output 5 Y1 I O Analog Switch Input Output 6 INHIBIT Control Input 7 VEE Power Supply 8 Power Supply 9 Control Input Control Input Analog Switch Input Output Analog Switch
8. V 10 Input H current NH 0 3 UA 15 VIH 15 V Input L current HL 0 3 uA 15 VIL O V 950 5 RON resistance RON 250 Q 10 30 160 15 10 5 RON resistance defluxion ARON 6 Q 10 4 15 hannel OFF 0 3 15 Pee nee ner 0 3 a 15 i i 5 5 Static supply current IDD 10 UA 10 VI VDD or GND 18 15 Standard Value a Parameter Condition MAX Propagation delay time tPLH SW IN 0UT tPHL Propagation delay time tPHZ tPLZ CONT OUT tPZH tPZL Propagation delay time tPHZ tPLZ INH 0UT tPZH tPZL Maximum propagation frequency Feed through attenuation VEE 5 V Sine wave distortion VEE 5 V Input capacitance control input Input capacitance switch input MAX VEE 5 V www rohm com 6 17 2011 08 RevB 2011 ROHM Co Ltd All rights reserved BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note O Electrical Characteristics BU4551BC DC Characteristics Unless otherwise noted VSS 0 V Ta 25 C Standard Value Parameter Symbol Unit Condition Fig No MIN TYP MAX VDDIV 3 9 5 Input H voltage VIH 7 0 V 10 Input L voltage VIL
9. minimum quantity SSOP B16 lt Tape and Reel information gt Embossed carrier tape 2500pcs E2 The direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand Direction of feed Foo 0 0 0 0 0 0 0 0 000 6 TR GING Direction of feed oue 0 22 0 1 1 pin Unit mm Order quantity needs to be multiple of the minimum quantity DIP 16 Tape and Reel information Container Tube 19 4 0 3 Quantity 1000pcs Direction of feed Direction of products is fixed in a container tube 3 2 0 2 4 25 0 3 Unit mm Order quantity needs to be multiple of the minimum quantity Wo tonm com 17 17 2011 08 Rev B 2011 ROHM Co Ltd All rights reserved Notice Notes No copying or reproduction of this document in part or in whole is permitted without the consent of KOHM Co Ltd The content specified herein is subject to change for improvement without notice The content specified herein is for the purpose of introducing ROHM s products hereinafter Products If you wish to use any such Product please be sure to refer to the specifications which can be obtained from ROHM upon request Examples of application circuits circuit constants and any other information contained herein illustrate the standard usage and operations of the Products The peripheral conditions must be ta
10. 0 Input H current IH 0 3 UA 15 VIH 15 V Input L current HL 0 3 UA 15 VIL O V 950 5 ON resistance RON 250 Q 10 8 160 15 10 5 ON resistance defluxion ARON 6 Q 10 4 15 0 3 15 pena Asi ET 0 3 a 15 i i 5 5 Static supply current IDD 10 UA 10 VI VDD or GND 15 15 Standard Value ou Parameter Condition MAX Propagation delay time tPLH CHANNEL IN 0UT tPHL Propagation delay time tPHZ tPLZ CONT OUT tPZH tPZL Propagation delay time tPHZ tPLZ INHIBIT 0UT tPZH tPZL Maximum propagation frequency Feed through attenuation VEE 5 V Sine wave distortion VEE 5 V Input capacitance control input Input capacitance switch input MAX VEE 5 V www rohm com 4 17 2011 08 Rev B 2011 ROHM Co Ltd All rights reserved BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note O Electrical Characteristics BU4052BC DC Characteristics Unless otherwise noted VSS 0 V Ta 25 C Standard Value Parameter Symbol Unit Condition Fig No MIN TYP MAX VDDIV 3 9 5 Input H voltage VIH 7 0 V 10 Input L voltage VIL 3 0
11. 50 25 0 50 25 o 25 50 75 100 Ambient Temperature C Fig 4 rising propagation delay CONT OUT tPZH 200 BU4066BC F FV 175 Operating Temperature Range 150 125 100 75 50 25 50 25 0 25 50 75 100 Ambient Temperature C Fig 7 falling propagation delay CONT OUT tPZL www rohm com 2011 ROHM Co Ltd All rights reserved Propagation Delay ns Propagation Delay ns 50 40 30 20 10 BU4066BC F FV Operating Temperature Range VDD 5 V VDD 10 V VDD 18 V 50 25 0 25 50 15 100 Fi 200 175 150 125 100 Ambient Temperature C 9 2 rising propagation delay IN OUT BU4066BC F FV Operating Temperature Range 50 25 0 25 50 75 100 Ambient Temperature C Fig 5 falling propagation delay CONT OUT tPHZ 8 17 Propagation Delay ns Propagation Delay ns 50 40 30 20 10 Technical Note BU4066BC F FV Operating Temperature Range 50 25 0 25 50 75 100 Ambient Temperature C Fig 3 falling propagation delay 200 175 150 125 100 IN OUT BU4066BC F FV Operating Temperature Range VDD 10 VJ VDD 18 V 50 25 0 25 50 75 100 Ambient Temperature C Fig 6 rising propagation delay CONT OUT tPLZ 2011 08 Rev B
12. 50 25 0 25 50 75 100 Ambient Temperature C Fig 9 propagation delay time tPLH IN OUT 500 m E BU4051BC F FV 400 wet 3 300 a 3 200 a o O a VDD 18 V 100 Operating Temperature Range 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 12 propagation delay time tPHZ CONT OUT 500 gt BU4051BC F FV 400 Operating Temperature Range gt ke 300 VDD 3 V a 2 3 200 3 O VDD 5 V a 100 fri VDDETO V VDD 18 V 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 15 propagation delay time tPZH INH OUT 500 z BU4051BC F FV 400 Operating Temperature Range KO E T 300 Q Q 200 S O VDD 5 V a 100 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 18 propagation delay time tPLZ INH OUT 9 17 Technical Note 50 BU4051BC F FV 40 7 VDDF3 V E VDD 5 V T VDD 10 V y 30 E amp VDD 18 V Ro 8 20 o 2 a 10 Operating Temperature Range 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 10 propagation delay time tPHL IN OUT 500 400 g VDD 3 V T 300 a O kes o a a 5 T 100 VDD 18 V Operating Temperature 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 13 propagation d
13. F FV Operating Temperature Range 400 P vDD 3 V VDD 5 V 300 200 100 50 25 0 25 50 75 Ambient Temperature C Fig 35 propagation delay time tPLZ CONT OUT 100 500 BU4053BC F FV 400 VDD 3 V 300 DD 5 V 200 VDD 18 V 100 Operating Temperature Range 50 25 0 25 50 75 Ambient Temperature C Fig 38 propagation delay time tPHZ INH OUT 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV Reference Data BU4551B ON Resistance Q Propagation Delay ns Propagation Delay ns 350 BU4551B F FV 300 200 8s c 25 C 150 age VOD 10 V 85I Cl vpp 15 V 100 251 C ger 40 C aspel 50 40 C 0 0 5 10 15 Input Voltage V Fig 41 ON resistance input voltage 800 BU4551B F FV 700 600 Operating Temperature Range 500 400 300 VDD 16 V 50 25 0 25 50 75 Ambient Temperature C Fig 44 propagation delay time tPZH CONT OUT 100 BU4551B F FV Operating Temperature Range 400 50 25 0 25 50 75 Ambient Temperature C Fig 47 propagation delay time tPZL CONT OUT 100 www rohm com 2011 ROHM Co Ltd All rights
14. Input Output COMMON X Analog Switch Input Output X1 Analog Switch Input Output X2 Analog Switch Input Output Power Supply INHIBIT A ON SWITCH B L L H H X PIN FUNCTION PIN No PIN NAME WO PIN FUNCTION 1 Y1 I O Analog Switch Input Output 2 YO I O Analog Switch Input Output 3 Z1 I O Analog Switch Input Output 4 Z I O Analog Switch Input Output 5 ZO I O Analog Switch Input Output 6 INHIBIT Control Input 7 VEE Power Supply 8 VSS Power Supply 9 G Control Input 10 B Control Input 11 A Analog Switch Input Output 12 XO I O Analog Switch Input Output 13 X1 I O Analog Switch Input Output 14 X I O Analog Switch Input Output 15 Y I O Analog Switch Input Output 16 VDD Power Supply TRUTH TABLE INHIBIT A B C ON SWITCH L L L L X0 Y0 Z0 L H L L X1 YO ZO L L H L X0 Y1 Z0 L H H L X1 Y1 ZO L L L H X0 Y0 Z1 L H L H X1 YO Z1 L L H H XO Y1 Z1 L H H H X1 Y1 Z1 H X X X NONE 14 17 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV 5 BU4551B Series Technical Note W1 VDD PIN FUNCTION PIN NAME PIN FUNCTION xO WO 1 Analog Switch Input Output X1 W 2 XO
15. N X5 INHIBITL 6 VEE VSS 8 VDDO INHIBIT O AO LEVEL L BINARY TO 1 of 8 DECODER BO CONVERTER WITH INHIBIT CO E VEE O xo op X10 g We x2 O sy X3 0 st COMMON X40 y le O X pS X5 O e Y X6 O Sy Ay X70 SS www rohm com 2011 ROHM Co Ltd All rights reserved PIN FUNCTION PIN NAME IN OUT Technical Note PIN FUNCTION Analog Switch Input Output OUT IN Analog Switch Input Output OUT IN Analog Switch Input Output IN OUT Analog Switch Input Output CONT B Control Input CONT C Control Input VEE Power Supply IN OUT Analog Switch Input Output 1 2 3 4 5 6 7 8 9 OUT IN Analog Switch Input Output OUT IN Analog Switch Input Output IN OUT Analog Switch Input Output CONT D Control Input CONT A Control Input VDD TRUTH TABLE CONTROL ON SWITCH Power Supply A A 1pin 2pin B B 3pin 4pin C C 8pin 9pin D PIN FUNCTION PIN NAME D 10pin 11pin PIN FUNCTION Analog Switch Input Output Analog Switch Input Output Analog Switch Input Output Analog Switch Input Output Analog Switch Input Output INHIBIT Control Input Power Supply Power Supply OI QINIOQIO I JOQGN H Control Input Control Input Control Input Analog Switch Input Output Analog Switch
16. OHM shall bear no responsibility whatsoever for your use of any Product outside of the prescribed scope or not in accordance with the instruction manual The Products are not designed or manufactured to be used with any equipment device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk of human injury such as a medical instrument transportation equipment aerospace machinery nuclear reactor controller fuel controller or other safety device ROHM shall bear no responsibility in any way for use of any of the Products for the above special purposes If a Product is intended to be used for any such special purpose please contact a ROHM sales representative before purchasing If you intend to export or ship overseas any Product or technology specified herein that may be controlled under the Foreign Exchange and the Foreign Trade Law you will be required to obtain a license or permit under the Law Thank you for your accessing to ROHM product informations More detail product informations and catalogs are available please contact us ROHM ROHM Customer Support System SEMICONDUCTOR http www rohm com contact www rohm com 2011 ROHM Co Ltd All rights reserved R1120A
17. ROHM SEMICONDUCTOR General purpose CMOS Logic IC Series BU4S BU4000B Series Technical Note High Voltage CMOS Logic ICs Free RoHS lt Analog Switch gt BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV No 11050EBT05 Description BU4066BC series ICs each contain 4 independent switches capable of controlling either digital or analog signals BU4051BC BU4052BC BU4053BC and BU4551B series ICs are analog selectable composite multiplexer demultiplexer BU4051BC series is configured with 8 channels BU4052BC is configured with two 4 channels BU4053BC series is configured with three 2 channels BU4551B series is configured with four 2 channels and switches applicable for each channel are turned on according to digital signals of control terminal Even if the logic amplitude VDD VSS of the control signal is small signals of large amplitude VDD VEE can be switched Features 1 QUse Low power consumption Wide operating supply voltage 3 V 18 V High input impedance L TTL2 input and LS TTL1 can be driven directly Applicable channel switches can be turned ON and OFF by the digital control signal Small control voltage VDD VSS can control signals of large amplitude VDD VEE Linearity with excellent transfer characteristics This product is used as the switch and chopper modulation circuit o
18. V 10 Input H current NA 0 3 UA 15 VIH 15 V Input L current HL 0 3 UA 15 VIL O V 950 5 ON resistance RON 250 Q 10 19 160 15 10 5 ON resistance defluxion ARON 6 Q 10 4 15 0 3 15 pena Asi ar 0 3 a 15 i i 5 5 Static supply current IDD 10 UA 10 VI VDD or GND 15 15 Standard Value o Parameter Condition MAX Propagation delay time tPLH SWITCH IN gt 0UT tPHL Propagation delay time tPHZ tPLZ CONT OUT tPZH tPZL Propagation delay time tPHZ tPLZ INH 0UT tPZH tPZL Maximum propagation frequency Feed through attenuation VEE 5 V Sine wave distortion VEE 5 V Input capacitance control input Input capacitance switch input MAX VEE 5 V www rohm com 5 17 2011 08 RevB 2011 ROHM Co Ltd All rights reserved BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note O Electrical Characteristics BU4053BC DC Characteristics Unless otherwise noted VSS 0 V Ta 25 C Standard Value Parameter Symbol Unit Condition Fig No MIN TYP MAX VDD V 3 5 5 Input H voltage VIH 7 0 V 10 Input L voltage VIL 3 0
19. VI VDD or GND 4 0 15 Input capacitance l control input i pF TAMRA Input capacitance switch input CS 10 pF f 1 MHz Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value Parameter Propagation delay time SWIN OUT tPLH tPHL TYE MAX VDDIV Condition RL 10 kQ Propagation delay time CONT gt 0UT tPHZ tPLZ tPZH tPZL Output H L Hi Z RL 1 kQ Propagation delay time CONT gt 0UT tPHZ tPLZ tPZH tPZL Output Hi Z HL RL 1 kQ Feed through attenuation VSS 5 V RL 10 kQ Sine wave distortion VSS 5 V RL 10 kQ Cross talk CONT OUT VSS 5 V RL 10 kQ f 1 MHZ Cross talk 2 Between channels www rohm com O 2011 ROHM Co Ltd All rights reserved 3 17 VSS 5 V RL 10 kQ 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note O Electrical Characteristics BU4051BC DC Characteristics Unless otherwise noted VSS 0 V Ta 25 C Standard Value Parameter Symbol Unit Condition Fig No MIN TYP MAX VDDIV 3 9 5 Input H voltage VIH 7 0 V 10 Input L voltage VIL 3 0 V 1
20. ZL INH OUT 100 www rohm com 2011 ROHM Co Ltd All rights reserved Propagation Delay ns Propagation Delay ns Propagation Delay ns Propagation Delay ns 50 BU4053BC F FV Operating Temperature Range 40 p g p g 30 20 10 VDD 18 V 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 31 propagation delay time tPLH IN OUT 500 BU4053BC F FV 400 Operating Temperature Range 300 VDD 3 V VDD 5 V 200 i VDD 10 V 100 0 50 25 0 25 50 75 Ambient Temperature C Fig 34 propagation delay time tPHZ 100 CONT OUT 500 BU4053BC F FV 400 Operating Temperature Range 300 H VDD 31V VDD 5 V VDD 10 V 0 M 50 25 0 25 50 75 Ambient Temperature C Fig 37 propagation delay time tPZH 100 INH OUT 500 BU4053BC F FV 400 Operating Temperature Range 300 200 100 0 50 25 0 25 50 75 Ambient Temperature C Fig 40 propagation delay time tPLZ INH OUT 100 11 17 Propagation Delay ns Propagation Delay ns Propagation Delay ns Technical Note 50 BU4053BC F FV Operating Temperature Range 40 A ae 30 20 VDD 10 V 10 VDD 18 V i 50 25 0 25 50 75 100 Ambient Temperature C Fig 32 propagation delay time tPHL IN OUT 500 BU4053BC
21. ameter Operating Power Supply Symbol Limit BU4066BC BU4051BC BU4052BC BU4053BC BU4551B 3 to 18 Input Voltage Thermal Derating Curve 1400 1200 sw 1180 mV BU4066BC 870 mV BU4066BCFV 2 Z w 610 mV BU4066BCF ke Q O 800 1 3 600 Power Dissipation Palmw 0 25 50 75 100 Ambient temperature Ta c 1 O Interface GND 150 175 Power Dissipation Pdlmw lt Analog switch input output gt O Description of output rising falling wave tPLH tPHL tPLH Time up to 50 of the rise time of input waveform 50 of the rise time of output waveform tPHL Time up to 50 of the fall time of input waveform 50 of the fall time of output waveform www rohm com 2011 ROHM Co Ltd All rights reserved 0 to VDD 1400 1 95 1200 1250 mV BU4 4 pou 620 mV BUA FV 5 2 7 0 1000 Yonn 380 mV BU4 F 6 3 49 mWw C Below shows BU4 4 10 0 BU4051BC BU4052BC 5 5 0 BU4053BC BU4551B 6 31 When used at Ta 25 C or above values of above are reduced per 1 C Allowable loss is the value for mounting 70 mm x 70 mm x 1 6 mm FR4 glass epoxy 0 circuit board copper foil area is 3 or less 0 25 50 75 100 125 150 175 Ambient temperature Ta Cc VDD VDD GND GND lt Input gt
22. carrier tape 2500pcs E2 SAA a The direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand ES Ke Direction of feed oue Reel Order quantity needs to be multiple of the minimum quantity Tape and Reel information Embossed carrier tape 2500pcs E2 Di a The direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand SSS O O O O O O O O 0 O O Direction of feed L Order quantity needs to be multiple of the minimum quantity Tape and Reel information Tube Quantity 1000pcs Direction of feed Direction of products is fixed in a container tube Order quantity needs to be multiple of the minimum quantity 16 17 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note SOP16 Tape and Reel information 10 0 2 Embossed carrier tape MAX 10 35 include BURR Quantity 2500pcs m LI a LI LI LI E2 The direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand Direction of feed Foo 0 0 0 0 0 0 0 0 000 6 GING Direction of feed oue 1pin Unit mm Order quantity needs to be multiple of the
23. elay time tPLZ CONT OUT 500 BU4051BCJF FV 400 ON S T 300 a Cc O i amp 200 VDD 10 V o 2 a VDD 18 V 100 Operating Temperature Range 50 25 0 25 50 75 100 Ambient Temperature C Fig 16 propagation delay time tPHZ INH OUT 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV Reference Data BU4052BC 300 BU4052BC F FV ON Resistance Q e al o 10 15 Input Voltage V Fig 19 ON resistance input voltage 500 e BU4052BC F FV 400 pr p 3 300 Fi E 2 i i Q _ _ oak E VDD 18 V 100 Operating Temperature Range f 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 22 propagation delay time tPZH CONT OUT 500 BU4052BC F FV A00 i Operating Temperature Range my E 5 300 a 2 amp 200 is o 2 a 100 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 25 propagation delay time tPZL CONT OUT 500 400 Ko a 300 a 2 amp 200 a o 2 a 100 VDD 18 V Operating Temperature Range 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 28 propagation delay time tPZL INH OUT www rohm com 2011 ROHM Co
24. f analog and digital signals Since ON resistance of each switch is low the product can be connected to low impedance circuit The product can be used as ON OFF switch and changeover switch of high speed lines without degrading analog signals such as voice and images OLineup High Voltage CMOS Logic pr Analog Switch circults BU5066BCFV 1 www rohm com BU4051BC 8 to 1 En j BU4051BCF multiplexer BU4051BCFV BU4052BC i Ka BU4052BCF multiplexer BU4052BCEV BU4053BC i To BU4053BCF multiplexer BU4053BCFV 8045318 e BU4551B F circuits multiplexer BU4551B FV 1 17 2011 ROHM Co Ltd All rights reserved Quad analog switch 8ch analog multiplexer demultiplexer Dual 4ch analog multiplexer demultiplexer Triple 2ch analog multiplexer demultiplexer Quad 2ch analog multiplexer demultiplexer 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note O Absolute Maximum Ratings Limit Unit PAA Symbol Buao66ec BU4051BC BU4052BC BU4053BC BU4551B Power Supply Voltage VDD 0 5 to 20 0 3 to 18 V Supply current lin 10 mA Operating temperature Topr 40 to 85 C Storage temperature Tstg 55 to 150 C Input Voltage VIN O 5 to VDD 0 5 0 3 to VDD 0 3 V Maximum junction temperature Tjmax 150 je Recommended Operating Conditions Par
25. ken into account when designing circuits for mass production Great care was taken in ensuring the accuracy of the information specified in this document However should you incur any damage arising from any inaccuracy or misprint of such information ROHM shall bear no responsibility for such damage The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products ROHM does not grant you explicitly or implicitly any license to use or exercise intellectual property or other rights held by ROHM and other parties ROHM shall bear no responsibility whatsoever for any dispute arising from the use of such technical information The Products specified in this document are intended to be used with general use electronic equipment or devices such as audio visual equipment office automation equipment commu nication devices electronic appliances and amusement devices The Products specified in this document are not designed to be radiation tolerant While ROHM always makes efforts to enhance the quality and reliability of its Products a Product may fail or malfunction for a variety of reasons Please be sure to implement in your equipment using the Products safety measures to guard against the possibility of physical injury fire or any other damage caused in the event of the failure of any Product such as derating redundancy fire control and fail safe designs R
26. reserved Propagation Delay ns Propagation Delay ns 50 BU4551B F FV 40 Operating Temperature Range VDD 3 V 30 20 VDD 10 V 10 IAEA PE VDD 16 V 50 25 0 25 50 75 100 Ambient Temperature C Fig 42 propagation delay time tPLH IN OUT 800 BU4551B F FV 700 Operating Temperature Range 600 500 DD 3 V 400 VDD 16 V 50 25 0 25 50 75 100 Ambient Temperature C Fig 45 propagation delay time tPHZ CONT OUT 12 17 Propagation Delay ns Propagation Delay ns Technical Note BU4551B F FV Operating Temperature Range VDD 3 V Ambient Temperature C Fig 43 propagation delay time tPHL IN OUT BU4551B F FV Operating Temperature Range eet a MI a VDD 10 V VDD 16 V 50 25 0 25 50 75 100 Ambient Temperature C Fig 46 propagation delay time tPLZ CONT OUT 2011 08 Rev B BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV O Pin Configration Pin Function Block Diagram Truth Table 1 BU4066BC Series IN OUT MN O IN OUT OM CONT XA ca IN OUT X6 CHANNEL IN OUT a OUT I
27. supply lines To obtain a low noise ground and supply line separate the ground section and supply lines of the digital and analog blocks Furthermore for all power terminals to ICs connect a capacitor between the power supply and the GND terminal When applying electrolytic capacitors in the circuit not that capacitance characteristic values are reduced at low temperatures GND voltage The potential of GND pin must be minimum potential in all operating conditions Thermal design Use a thermal design that allows for a sufficient margin in light of the power dissipation Pd in actual operating conditions Inter pin shorts and mounting errors Use caution when positioning the IC for mounting on printed circuit boards The IC may be damaged if there is any connection error or if pins are shorted together Actions in strong electromagnetic field Use caution when using the IC in the presence of a strong electromagnetic field as doing so may cause the IC to malfunction Testing on application boards When testing the IC on an application board connecting a capacitor to a pin with low impedance subjects the IC to stress Always discharge capacitors after each process or step Always turn the IC s power supply off before connecting it to or remove it from a jig or fixture during the inspection process Ground the IC during assembly steps as an antistatic measure Use similar precaution when transporting or storing the IC 9 Ground Wiring Pattern When
28. using both small signal and large current GND patterns it is recommended to isolate the two ground patterns placing a signal ground point at the ground potential of application so that the pattern wiring resistance and voltage variations caused by large currents do not caused by large currents do not cause variations in the small signal ground voltage Be careful not to change the GND wiring pattern of any external components elther 15 17 2011 08 Rev B 2011 ROHM Co Ltd All rights reserved BU4066BC BU4066BCF BU4066BCFV BU4051BC BU4051BCF BU4051BCFV BU4052BC Technical N BU4052BCF BU4052BCFV BU4053BC BU4053BCF BU4053BCFV BU4551B BU4551BF BU4551BFV echnical Note O Ordering part number Part No SOP14 8 7 0 2 Part No 4066BC 4051BC 4052BC MAX 9 05 include BURR DS S Si l d 1 27 EN SE y o SSOP B14 14 Li o Ta o 1 0 65 DIP14 19 4 0 3 j i __9 0 0 2 8 7 anon Yon 0 22 0 1 a O LO AN st N O N 05 www rohm com 2011 ROHM Co Ltd All rights reserved 4053BC 4551B Unit mm Unit mm A ei eiv lef2 A n n menn Package Packaging and forming specification None DIP14 DIP16 E2 Embossed tape and reel F SOP14 SOP16 None Tray Tube FV SSOP B14 SSOP B16 Tape and Reel information gt Embossed
Download Pdf Manuals
Related Search
rohm BU4066BCFV technical Note