rohm BU4SU69G2 technical Note
Contents
1. Standard Value Fig Parameter Symbol Unit Condition MIN TYP MAX VDD V No 3 5 5 VOUT 0 5 V 10 Input H voltage VIH 2 V nn E VOUT 1 5 V 11 0 15 12 IOUT 1 uA 1 5 5 VOUT 4 5 V 10 Input L voltage VIL V d 2 i5 VOUT 13 5 V IOUT 1 uA Input H current IIH 0 3 pA 15 VIH 15 V Input L current IIL 0 3 pA 15 VIL O V 2 An IOUT lt 1 yA Output H voltage VOH 9 95 V 10 H 13 VIN VSS 14 95 15 IOUT lt 1 yA Output L voltage VOL 0 05 V 10 K 14 VIN VDD 0 05 15 0 51 5 VOH 4 6 V 2 1 5 VOH 2 5 V Output H current IOH 1 3 mA 10 VOH 9 5 V 13 VOH 13 5 V 3 4 15 VIN VSS 0 51 5 VOL 0 4 V iai 1 3 10 VOL 0 5 V j Output L current m VOL 1 5 V 3 4 15 VINZVDD 0 25 5 Static supply current IDD 0 5 pA 10 VIN VSS VDD 1 0 15 Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 70 5 Output rising time tTLH 35 ns 10 15 30 15 70 5 Output falling time tTHL 35 ns 10 16 30 15 85 5 tPLH 40 ns 10 17 Propagation delay time ES pag y 85 5 tPHL 40 ns 10 18 30 15 Input capacitance CIN 5 pF 5 ee 4 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU42. www rohm com 2009 ROHM Co Ltd All rights reserved PIN PIN NAME I O PIN FUNCTION A Y 1 NC NC L H 2 A Input H L 3 VSS Power supply 4 Y O Output 5 VDD Power supply 14 16 2009 06 Rev A BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Notes for use 1 Absolute Maximum ratings 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 2 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 3 Power supply lines Design PCB layout pattern to provide low impedance GND and 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 supply 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 4 GND voltage The
3. 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 2009 ROHM Co Ltd All rights reserved R0039A
4. 10 NE P 40 14 95 15 e IIOUTI lt 1 uA Output L voltage VOL 0 05 V 10 ao 41 0 05 15 0 51 5 VOH 4 6 V 2 1 5 VOH 2 5 V Output H current IOH mA 40 1 3 10 VOH 9 5 V 3 4 15 VOH 13 5 V 0 51 5 VOL 0 4 V Output L current IOL 1 3 mA 10 VOL 0 5 V 41 3 4 15 VOL 1 5 V 0 25 5 Static supply current IDD 0 5 yA 10 VIN VSS VDD 1 0 15 Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value 7 Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 70 5 Output rising time tTLH 35 ns 10 42 30 15 70 5 Output falling time tTHL 35 ns 10 43 30 15 90 5 tPLH 45 ns 10 44 ion delay ti 30 15 Propagation delay time di 5 tPHL 45 ns 10 45 30 15 Input capacitance CIN 5 pF 5 aus 7 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics BU4S584G2 DC Characteristics Unless otherwise noted VSS O V Ta 25 C Standard Value i T Fig Pa
5. c _ 40 VDD 15 E lt ating Voltage Range us E T bud E e 30 E 8 8 20 D 5 LO V 2 5 2 C a 5 o c 6 9 10 0 0 5 10 15 20 0 5 10 15 20 Output Voltage V Output Voltage V Ambient Temperature C Fig 13 Fig 14 Fig 15 Output source current voltage characteristics Output sink current voltage characteristics Output rising time tTLH BU4S11G2 i BU4S11G2 BU4S11G2 i Operating Temperature ange t Operating Temperature Range E ange i i j T D 3 V i a a g g E E gt gt E i 1 G a a uw c S S g Es x 6 T g o a a 50 25 0 25 50 75 100 Ambient Temperature C Ambient Temperature C Ambient Temperature C Fig 16 Fig 17 Fig 18 Output falling time tTHL Propagation delay time tPLH Propagation delay time tPHL Pinout Diagram Pin Description Input Output Table VDD Y PIN PIN NAME I O PIN FUNCTION A B Y 1 A l Input L L H 2 B l Input L H H 3 VSS Power supply H L H 4 Y O Output H H L 5 VDD Power supply www rohm com 10 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Charasteristics Curves BU4SU69G2 2 6 1 20 BU4S69G2 BU4S69G2 BU4S69G2 5 10 TC 251c A0fC 15 85 C 25 C 40fC 85 ic 25 d 40fC LA Output Voltage V Output Voltage V o Output Vol
6. m a B o 85 C 25 C Technical Note BU4S71G2 5 10 Input Voltage V Fig 30 15 Output voltage Input voltage characteristics VDD 15 V VSS 0 V 10 15 20 Output Voltage V Fig 32 Output sink current voltage characteristics Propagation Delay Time ns 300 Operatil N a o N e o BU4S71G2 Range E m a o m e o a o 50 25 0 25 50 75 100 Ambient Temperature C Fig 35 Propagation delay time tPLH Pinout Diagram Pin Description Input Output Table VDD Y www rohm com 2009 ROHM Co Ltd All rights reserved BU4S71G2 Operating Temperature Range D 3 V Output Rise Time ns Propagation Delay Time ns Ambient Temperature C Fig 33 Rising time tTLH BU4S71G2 Operating Temperature Range i 50 25 0 25 50 75 100 Ambient Temperature C Fig 36 Propagation delay time tPHL PIN PIN NAME I O PIN FUNCTION 1 A Input 2 B Input 3 VSS Power supply 4 Y O Output 5 VDD Power supply 12 16 ILL ru I rIIrr u I r rr 2009 06 Rev A BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Electrical Charasteristics Curves BU4S81G2 Output Voltage V wo Output vo
7. 009 ROHM Co Ltd All rights reserved Output Voltage V 20 m oa m o Technical Note BU4S81G2 25 5 10 15 Input Voltage V Fig 39 Output voltage Input voltage characteristics Output Rise Time ns Propagation Delay Time ns PIN PIN NAME I O PIN FUNCTION 1 NC Input 2 A Input 3 VSS Power supply 4 Y O Output 5 VDD Power supply 13 16 VDD 15 V VSS 0 V BU4S81G2 Operating Tem perature Range 3 Ambient Temperature C Fig 42 Output rising time tTLH BU4S81G2 i Operating Temperature Range DD 3 50 25 0 25 50 75 100 Ambient Temperature C Fig 45 Propagation delay time tPHL os ee Tr Iru rririr 2009 06 Rev A BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Charasteristics Curves BU4S584G2 BU4S584G2 85 C 25 C 40 C Output Voltage V wo Input Voltage Fig 46 M Output voltage Input voltage characteristics VDD 5 V VSS 0 V 50 BU4S584G2 DD 15 V 40 C t A 25 C e 85 c o 5 30 VDD 10 V 9 40 C 8 25 3 20 ES amp VbD 5 V 8 10 sorc 25 C 85 C 0 0 5 10 15 20 Output Voltage V Fig 49 Output source current voltage ch
8. 5 V 32 3 4 15 VOL 1 5 V 0 25 5 Static supply current IDD 0 5 yA 10 VIN VSS VDD 1 0 15 Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value i Fig Parameter Symbol Unit Condition MIN TYP MAX VDD V No 70 5 Output rising time tTLH 35 ns 10 33 30 15 70 5 Output falling time tTHL 35 ns 10 34 30 15 90 5 tPLH 45 ns 10 35 30 15 Propagation delay time 90 5 tPHL 45 ns 10 36 30 15 Input capacitance CIN 5 pF 5 na 6 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics BU4S81G2 DC Characteristics Unless otherwise noted VSS O V Ta 25 C Standard Value E Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 3 5 5 37 Input H voltage VIH 7 0 V 10 IOUT lt 1 pA 38 11 0 15 39 1 5 5 37 Input L voltage VIL 3 0 V 10 IOUT lt 1 yA 38 4 0 15 39 Input H current IIH 0 3 pA 18 VIH 18 V Input L current IIL 0 3 pA 18 VIL O V 4 95 5 Output H voltage VOH 9 95 V
9. SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics BU4SU69G2 DC Characteristics Unless otherwise noted VSS O V Ta 25 C Standard Value E Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 4 0 5 VOUT 0 5 V 19 Input H voltage VIH 8 0 T E V 10 CES 20 12 0 15 IIOUTI lt 1 UA 21 1 0 5 VOUT 4 5 V 19 Input L voltage VIL a V a ed SH 15 lOUT lt 2 HA i Input H current IIH 0 3 pA 15 VIH 15 V Input L current IIL 0 3 pA 15 VIL O V iuc IIOUTI lt 1 uA Output H voltage VOH 9 95 V 10 NU 22 14 95 15 00 gt IIOUTI lt 1 UA Output L voltage VOL 0 05 V 10 RU 23 0 05 15 0 51 5 VOH 4 6 V 2 1 5 VOH 2 5 V Output H current IOH 1 3 mA 10 VOH 9 5 V 22 VOH 13 5 V 3 4 15 VIN VSS 0 51 5 VOL 0 4 V 1 3 10 VOL 0 5 V Output L current IOL mA 23 d 15 VOL 1 5 V VINZVDD 0 25 5 Static supply current IDD 0 5 pA 10 VINZVSS VDD 1 0 15 Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value zT Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 70 5 Output rising ti
10. aracteristics 250 i BU4S584G2 i Operating Temperature Range i 200 L3 i T ATA o 150 T iL 5 100 amp gt O 50 Ambient Temperature C Fig 52 Output falling time tTHL 12 20 BU4S584G2 BU4S584G2 10 m a C 25 C Output Voltage V o Output Voltage V m o 5 2 0 0 0 2 4 6 8 10 0 5 10 15 Input Voltage V Input Voltage V Fig 47 Fig 48 Output voltage Input voltage characteristics Output voltage Input voltage characteristics VDD 10 V VSS 0 V VDD 15 V VSS 0 V 50 BU4S584G2 BU4S584G2 DD 15 V i 40 i x 40 C E T r 9 30 VDD 10 V y 40 C amp 20 5 amp je 5 o 9 10 0 0 5 10 15 20 Output Voltage V Ambient Temperature C Fig 50 Fig 51 Output sink current voltage characteristics Output rising time tTLH 250 BU4S584G2 BU4S584G2 i Operating Temperature ange i Operating Temperature Range w 200 Li i S E VDD 8 V T E o E g 150 E 8 S 100 E amp H 3 a 50 oM 0 50 25 0 25 50 75 100 50 25 0 25 50 75 4100 Ambient Temperature C Ambient Temperature C Fig 53 Fig 54 Propagation delay time tPLH Propagation delay time tPHL Pinout Diagram Pin Description Input Output Table VDD
11. c c 5 2 100 2 E E o amp amp amp 50 a 0 Ambient Temperature C Ambient Temperature C Ambient Temperature C Fig 7 Fig 8 Fig 9 Output falling time tTHL Propagation delay time tPLH Propagation delay time tPHL Pinout Diagram Pin Description Input Output Table VDD Y PIN PIN NAME I O PIN FUNCTION A B Y 1 A Input L L H 2 B l Input L H L 3 VSS Power supply H L L 4 Y O Output H H L 5 VDD Power supply oe 9 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics Curves BU4S11G2 12 BU4S11G2 BU4S11G2 BU4S11G2 85 c 28 c 40 C 10 apc 25 Output Voltage V wo Output Voltage V o Output Voltage V 0 0 0 1 2 3 4 5 0 5 10 15 0 5 10 15 Input Voltage V Input Voltage V Input Voltage V Fig 10 Fig 11 Fig 12 Output voltage Input voltage characteristics Output voltage Input voltage haracteristics Output voltage Input voltage characteristics VDD 5 V VSS 0 V VDD 10 V VSS 0 V VDD 15 V VSS 0 V 50 BU4S11G2 BU4S11G2 BU4511G2
12. form id 2 tPLH Time up to 50 of fall time of input waveform 50 of rise time of output waveform 3 tTHL Time up to 9096 1096 of fall time of output waveform Output 4 tTLH Time up to 10 90 of rise time of output waveform 20 ns 20 ns ED Description of symbols 1 tPLH Time up to 50 of rise time of input waveform 50 of rise time of output waveform 2 tPHL Time up to 50 of fall time of input waveform Input 50 of fall time of output waveform 3 tTLH Time up to 1096 909 of rise time of output waveform 4 tTHL Time up to 9096 10 of fall time of output waveform Output pa du 2 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics BU4S01G2 DC Characteristics Unless otherwise noted VSS 0 V Ta 25 C p Standard Value s Fig arameter Symbol Unit Condition MIN TYP MAX VDDIV No 3 5 5 VOUT 0 5 V 1 Input H voltage VIH ry V ne 10 15 IOUT lt 1 pA 3 1 5 5 VOUT 4 5 V 1 Input L voltage VIL zd V a i 4 0 15 lIOUT 1 UA 3 Input H current IH 0 3 pA 15 VIH 15 V Inpu
13. it Parameter Symbol 0150162 BU4S11G2BU4SU69G2 BU4571G2 BU4S81G2 BU4S584G2 UM Power supply voltage VDD 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 0 3 to VDD 0 3 V Maximum junction temperature Tjmax 150 C Recommended Operating Conditions Limit 1 PCIe Symbol 54501G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Unit Operating power supply VDD 3 to 16 V Input voltage VIN 0 to VDD V G Thermal Derating Curve input output Equivalent Circuits c c LA MBA MODE 1200 ev 670 MV BU4S Series 1 A i A z 1000 fi i 3 E BU4S01G2 4 i i 4 5 ri BU4S11G2 E 800 5 BUASTIG2 S BUASB1G2 i A amp BU4S584G2 2 E eH y a 600 i m m m m 5 GND GND GND GND z amp 400 Input Output 70 1 UNIT 5 3 mW C 0 B 25 e aa 109 125 a im When used at Ta 25 C or above values of above are reduced per 1 C mbient temperature Ta C RENE Power dissipation is the value for mounting 70 mm x 70 mm x 1 6 mm FR4 glass epoxy circuit board copper foil area is 3 or less Switching Characteristics 20 ns 20 ns Description of symbols 1 tPHL Time up to 50 of rise time of input waveform 50 of fall time of output wave
14. ltage Iput voltage characteristics N w Az o o o Output Source Current mA m o BU4S81G2 B5 C 25 C 40 C 2 3 Input Voltage V Fig 37 VDD 5 V VSS 0 V BU4S81G2 VDD 15 V 40fC ZC 85 C VDD 10 V A0 C 25 C 85 DD 5 V ho c 25 C 85 C 5 10 15 20 Output Voltage V Fig 40 Output source current voltage characteristics 250 200 m a o Output Fall Time ns 50 Operating Temperature BU4S81G2 Range BIV 50 25 0 25 50 75 100 Ambient Temperature C Fig 43 Output falling time tTHL Output Voltage V 12 10 BU4S81G2 5 C 25 40 C 4 6 8 10 Input Voltage V Fig 3 8 Output voltae Input voltage characteristics VDD 10 V VSS 0 V Output Sink Current mA Propagation Delay Time ns 50 40 BU4S81G2 DD 15 V 30 20 VDD 10 V 250 200 10 15 20 Output Voltage V Fig 41 Output sink current voltage characteristics Operating Temp BU4S81G2 erature Range 150 VDD BM 100 50 VDD V 0 50 25 0 25 50 75 100 Ambient Temperature C Fig 44 Propagation delay time tPLH Pinout Diagram Pin Description Input Output Table VDD www rohm com 2
15. me tTLH 35 ns 10 24 30 15 70 5 Output falling time tTHL 35 ns 10 25 30 15 55 5 tPLH 30 ns 10 26 Propagation delay time a 2 55 5 tPHL 30 ns 10 27 25 15 Input capacitance CIN 5 pF 5 aus 5 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics BU4S71G2 DC Characteristics Unless otherwise noted VSS O V Ta 25 C Standard Value E Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 3 5 5 28 Input H voltage VIH 7 0 V 10 IOUT lt 1 pA 29 11 0 15 30 1 5 5 28 Input L voltage VIL 3 0 V 10 IOUT lt 1 yA 29 4 0 15 30 Input H current IIH 0 3 pA 18 VIH 18 V Input L current IIL 0 3 pA 18 VIL O V 4 95 5 Output H voltage VOH 9 95 V 10 NE P 31 14 95 15 e IIOUTI lt 1 uA Output L voltage VOL 0 05 V 10 ao 32 0 05 15 0 51 5 VOH 4 6 V 2 1 5 VOH 2 5 V Output H current IOH mA 31 1 3 10 VOH 9 5 V 3 4 15 VOH 13 5 V 0 51 5 VOL 0 4 V Output L current IOL 1 3 mA 10 VOL 0
16. n Him Technical Note SEMICONDUCTOR General purpose CMOS Logic IC Series BU4S BU4000B Series i a SR Single Gate CMOS Logic ICs Tee RoHS lt Logic Gate gt BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 No 09050EAT01 Description The BU4SxxxG2 are 1ch logic ICs encapsulated in an SSOP5 package They are interchangeable with the genaral purpose BU4000B series Features 1 Low power consumption 2 Surface mount package SSOP5 3 Broad operating supply voltage range 3V 16V 4 High input impedance 5 High fan out 6 L TTL2 and LS TTL1 inputs can be driven directly 7 Function compatible with BU4000B series 1ch Applications Suitable for use where low power consumption and a high degree of noise tolerance are required Lineup Single Gate CMOS Logic rcii Noa LL BU4S01G2 Single 2 input NOR gate Logic Gate g 2 i NAND e BU4S11G2 Single 2 input NAND gate circuit gate J bell os INV BU4SU69G2 Single inverter gate circuit gate J LJ 1 OR BU4S71G2 Single OR gate circuit gate LI X AND BUA4S81G2 Single 2 input AND gate circuit gate J 1 NV BU4S584G2 Single Schmitt trigger inverter circuit gate J ene 1 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Absolute Maximum Ratings Lim
17. ng time tTHL Propagation delay time tPLH Propagation delay time tPHL Pinout Diagram Pin Description Input Output Table VDD Y PIN PIN NAME I O PIN FUNCTION A Y 1 NC NC L 2 A Input H L 3 VSS Power supply 4 Y O Output 5 VDD Power supply HAN TONM Cori 11 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Electrical Charasteristics Curves BU4S71G2 bre 25 C 40 C Output Voltage V wo Input Voltage V Fig 28 Output Voltage V 12 10 85 C 25f c orc 4 6 Input Voltage V Fig 29 Output voltage Input voltage characteristics Output voltage Input voltage characteristics VDD 5 V VSS 0 VI 50 B o BU4S71G2 10 V w o N o 61 ec cl Output Source Current mA m o VDD 5 V Output Voltage V Fig 31 Output source current voltage characteristics 300 250 erature N e o BU4S71G2 m e o Output Fall Time ns He oa eo DD 5 V a o Ambient Temperature Fig 34 falling time tTH c L Output Sink Current mA VDD 10 V VSS 0 V 50 D o BU4S71G2 DD 15 V w o N m o Output Voltage V 20
18. potential of GND pin must be minimum potential in all operating conditions 5 Thermal design Use a thermal design that allows for a sufficient margin in light of the power dissipation Pd in actual operating conditions 6 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 7 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 8 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 removing 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 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 cause variations in the small signal ground voltage Be careful not to change the GND wiring pattern of any exte
19. rameter Symbol MIN TYP MAX Unit VDDIV Condition No 2 6 3 46 Input H voltage VIH V z 7 0 10 48 11 0 15 0 4 3 46 Input L voltage VIL 15 V 3 xii 3 0 10 48 4 0 15 Input H current IIH 0 3 pA 15 VIH 15 V Input L current IIL 0 3 pA 15 VIL O V 2 95 3 is 4 95 5 IOUT 1 uA Output H voltage VOH 9 95 E V 10 VIN VSS 49 14 95 15 0 05 3 i 0 05 5 IOUT 1 uA Output L voltage VOL 0 05 V 10 VINEVDD 50 0 05 15 0 1 3 VOH 2 7 V 0 51 5 VOH 4 6 V Output H current IOH 2 1 mA 5 VOH 2 5 V 49 1 3 10 VOH 9 5 V 3 4 15 VOH 13 5 V 0 1 3 VOL 0 3 V apn 0 51 E 5 VOL 0 4 V Output L current IOL 13 mA 10 VOL 0 5 V 50 3 4 15 VOL 1 5 V 0 1 0 5 3 0 15 0 6 5 Hysteresis voltage VH 0 25 E 10 V 10 0 40 1 5 15 0 2 3 0 25 5 e Supply current IDD 05 HA 10 VIN VSS or VDD 1 0 15 Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value T Fig Parameter Symbol MIN TYP MAX Unit VDDIV Condition No 140 3 TED 70 5 Output rising time tTLH 35 ns 10 51 30 15 140 3 TOER 70 5 Output falling time tTHL 35 ns 10 52 30 15 230 3 125 5 tPLH 60 ns 10 53 Propagation delay time ae xz pag y 230 3 125 5 tPHL 60 ns 10 54 50 15 aus 8 16 2009 06 Rev A 2009 ROHM Co Ltd All right
20. rnal components either 10 Unused input terminals Connect all unused input terminals to VDD or VSS in order to prevent excessive current or oscillation Insertion of a resistor 100kQ approx is also recommended www rohm com 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved 15 16 ES BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Q Ordering part number s s o Part No Part No Package Packaging and forming specification 4S01 4S11 G2 SSOP5 TR Embossed tape and reel 4SU69 4S71 4S81 4S584 SSOP5 Tape and Reel information Tape Embossed carrier tape Quantity 3000pcs TR Direction m an The direction is the 1pin of product is at the upper right when you hold reel on the left hand and you pull out the tape on the right hand S 1 25Max k 0 42 0 04 Direction of feed 0 1 0 05 0 05 Unit mm Order quantity needs to be multiple of the minimum quantity www rohm com 16 16 2009 06 Rev A 2009 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 ROHM Co L
21. s reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics Curves BU4S01G2 6 12 20 BU4S10G2 BU4S01G2 5 10 15 gt 4 8 3 25 C 40 C S 6 S 10 E E 8 82 o 4 6 5 1 2 0 0 0 0 1 2 3 4 5 0 2 4 6 8 10 0 5 10 15 Input Voltage V Input Voltage V Input Voltage V Fg Fig 2 Fig 3 Output voltage Input voltage characteristics Output voltage Input voltage characteristics Output voltage Input voltage characteristics VDD 5 V VSS 0 V VDD 10 V VSS 0 V VDD 15 V VSS 0 V 50 50 BU4S10G2 BU4S10G2 BU4S01G2 T 50 x 40 Opel ting Voltage Range E T F E 5 10M T 5 30 40Pc 2 30 E 6 25 C g 8sf c o g o x 5 E 8 20 20 5 n bD 10 V 2 amp DD 5 V E a a 40 C o O 10 25 C 10 85rc 0 0 0 5 10 15 20 50 25 0 25 50 75 100 Output Voltage V Output Voltage V Ambient Temperature C Fig 4 Fig 5 Fig 6 Output source current voltage characteristics Output sink current voltage characteristics Output rising time tTLH 250 BU4S10G2 BU4S10G2 BU4S01G2 i i Operating Tempretrue Range i Operating Tempretrue Range z 200 i Operating Tempretrue Range C H T js E g 150 o o G c a u
22. t L current IIL 0 3 pA 15 VIL O V iuc IIOUTI lt 1 UA Output H voltage VOH 9 95 V 10 at QU 4 14 95 15 uis lOUT lt 1 yA Output L voltage VOL 0 05 V 10 Dele 5 0 05 15 0 51 5 VOH 4 6 V 2 1 5 VOH 2 5 V Output H current IOH 1 3 mA 10 VOH 9 5 V 4 VOH 13 5 V 3 4 15 VIN VSS 0 51 5 VOL 0 4 V 1 3 10 VOL 0 5 V Output L current IOL mA 5 34 15 VOL 1 5 V VINZVDD 0 25 5 Static supply current IDD 0 5 pA 10 VINZVSS VDD 1 0 15 Switching Characteristics Unless otherwise noted VSS O V Ta 25 C CL 50 pF Standard Value Fig Parameter Symbol Unit Condition MIN TYP MAX VDDIV No 70 5 Output rising time tTLH 35 ns 10 6 30 15 70 5 Output falling time tTHL 35 ns 10 7 30 15 85 5 tPLH 40 ns 10 8 ion delay ti 30 15 Propagation delay time 85 5 tPHL 40 ns 10 9 30 15 Input capacitance CIN 5 pF 5 pa du 3 16 2009 06 Rev A 2009 ROHM Co Ltd All rights reserved BU4S01G2 BU4S11G2 BU4SU69G2 BU4S71G2 BU4S81G2 BU4S584G2 Technical Note Electrical Characteristics BU4S11G2 DC Characteristics Unless otherwise noted VSS O V Ta 25 C
23. tage V b o 0 0 0 1 2 3 4 5 0 2 4 6 8 10 0 5 10 15 Input Voltage V Input Voltage V Input Voltage V Fig 19 Fig 20 Fig 21 Output voltage Input voltage characteristics Output voltage Input voltagecharacteristics Output voltage Input voltage characteristics VDD 5 V VSS 0 V VDD 10 V VSS 0 V VDD 15 V VSS 0 V 50 50 200 U4S69G2 UAS69G2 40 40 lt 150 am E 7 5 a S E 8 E a 5 30 VDD 10 V E 8 2 8 100 3 20 a 20 a 3 E amp VDD 5 V g e 50 10 ad io d 25 C src 25 C 85 C 0 0 0 0 5 10 15 20 50 25 O0 25 50 75 100 Output Voltage V Output Voltage V Ambient Temperature C Fig 22 Fig 23 Fig 24 Output source current voltage characteristics Output sink current voltage characteristics Output rising time tTLH 200 200 250 BU4S69G2 BU4S69G2 i BU4S69G2 H i Operating Temperature Range i Li i Operating Temperature Range vw 200 i 150 150 Li S E uw o H i g S E E g E 5 150 i S Ss 100 amp 100 LL ES 5 S S 100 g ri ro 2 D D o g amp 50 S 50 8 a a 50 Operating Temperature Range 0 Ld 0 0 50 25 0 25 50 75 100 50 25 0 25 50 75 100 Ambient Temperature C Ambient Temperature C Ambient Temperature C Fig 25 Fig 26 Fig 27 Output falli
24. td 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 taken 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 de
25. vices 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 ROHM 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
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