ANALOG DEVICES LCM0S High Speed, Quad SPST Switch ADG201HS FEATURES 50ns max Switching Time Over Full Temperature Range Low Ron (30 typ) Single Supply Specifications for +10.8V to +16.5V Operation Extended Plastic Temperature Range (40C to + 85C) Break-Before-Make Switching Low Leakage (100pA typ) 44V Supply max Rating Available in 16-Lead DIP/SOIC and 20-Lead LCCC/PLCC Packages ADG201HS (K, B, T} Replaces HI-201HS ADG201HS (J, A, S) Replaces DG271 GENERAL DESCRIPTION The ADG201HS is a monolithic CMOS device comprising four independently selectable SPST switches. It is designed on an enhanced LC?MOS process which gives very fast switching speeds and low Ron. The switches also feature break-before-make switching action for use in multiplexer applications and low charge injection for minimum transients on the output when switching the digital inputs. ORDERING GUIDE Temperature Package Model? Range Option ADG201HSJN | -40Cto + 85C | N-16 ADG201HSKN | 40Cto +85C | N-16 ADG201HSKR | 40Cto +85C: | R-16 ADG201HSAQ | 40Cto +85C | Q-16 ADG201HSBQ | 40Cto +85C | Q-16 ADG201HSJP -40Cto +85C | P-20A ADG201HSKP | 40Cto + 85C | P-20A ADG201HSSQ_ | 55C to + 125C | Q-16 ADG201HSTQ? | 55C to + 125C | Q-16 ADG201HSTE? | 55C to + 125C | E-20A NOTES !To order MIL-STD-883, Class B processed parts, add /883B to T grade part numbers. See the Analog Devices Military Products Databook (1994) for military data sheet. 2E = Leadless Ceramic Chip Carrier; N = Narrow Plastic DIP; P = Plastic Leaded Chip Carrier; Q = Cerdip; R = 0.15 Small Outline IC (SOIC). 3$tandard Military Drawing (SMD) approved by DESC. SMD numbers are 962-86716012X (ADG201HSTE/883B) 962-8671601EX (ADG201HSTQ/883B) REV. B Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under anv patent or patent riahts of Analog Devices. FUNCTIONAL BLOCK DIAGRAM wl -O D1 woot >e7] -O D2 ADG201HS a IN3 red] pts IN4 ot aan os PRODUCT HIGHLIGHTS 1. 50ns max ton and torr: The ADG201HS top grades (K, B, T) have guaranteed 50ns max turn-on and turn-off times over the full operating tem- perature range. The lower grades (J,A,S) have guaranteed 75ns switching times over the full operating temperature range. -O $3 2. Single Supply Specifications: The ADG201HS is fully specified for applications which require a single positive power supply in the + 10.8V to +16.5V range. . Low Leakage: Leakage currents in the range of 100pA make these switches suitable for high precision circuits. The added feature of break-before-make allows for multiple outputs to be tied together for multiplexer applications while keeping leakage errors to a minimum. Switch IN Condition 0 ON 1 OFF Truth Table One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 617/329-4700 Fax: 617/326-8703ADG201HS SPECIFICATIONS (Vpp = +13.5V to +16.5V, = 13.5V to 16.5V, GND = OV, DUAL SUP P LY Viy 3V [Logic High Level) or 0.8 V [Logic Low Level] unless otherwise noted) Parameter Version +25C Twmin-Tmaxt Units Comments ANALOG SWITCH Analog Signal Range All Vss Vss Vmin All Vpp Vpp V max Ron All 30 - Otyp 10V<Vs< + 10V, Ips = 1mA; Test Circuit 1 All 50 75 0 max Ron Drift All 0.5 - %/C typ -10V<Vs< + 10V,Ips=1mA Ron Match All 3 - % typ - 10V<Vs< +10V, Ips =ImA Is (OFF), Off Input Leakage All 0.1 nA typ Vp= + 14V;3 Vs = + 14V; Test Circuit 2 J,K,A,B 1 20 nA max $,T 1 60 nA max Ip (OFF), Off Output Leakage All 0.1 nA typ Vp= +14V; Vs = + 14V; Test Circuit 2 J, K,A,B 1 20 nA max 8,T 1 60 nA max Ip (ON), On Channel Leakage All 0.1 nAtyp Vp=Vs= + I4V; Test Circuit 3 J,K,A,B 1 20 nA max 8,T 1 60 nA max DIGITAL CONTROL Vinu: Input High Voltage All 2.4 2.4 V min Vin; Input Low Voltage All 0.8 0.8 V max Ipor Ips All 1 1 pA max Cyr All 8 8 pF max DYNAMIC CHARACTERISTICS ton K,B,T 50 50 ns max Test Circuit 4 J,A, 75 75 ns max torr K,B,T 50 50 ns max Test Circuit 4 J,A,S 75 75 ns max lorF2 All 150 - ns typ Test Circuit 4 lopen All 5 5 ns typ ton-torr1; Test Circuit 4 Output Settling Time to 0.1% All 180 - ns typ Vin =3Vt0 OV; Test Circuit 4 OFF Isolation All 72 - dBtyp Vs = 3V rms, f= 100kKHz, Ry, = 1kO; Cy = 10pF; Test Circuit 5 Channel-to-Channel Crosstalk All 86 - dB typ Vs =3V rms, f= 100kHz, R; = 1kO; Cr. = 10pF; Test Circuit 6 Qunyj, Charge Injection All 10 - pC typ Rs =09, Vs =O0V; Test Circuit 7 Cs (OFF) All 10 - pF typ Cp (OFF) All 10 - pF typ Cp, Cs(ON) All 30 - pF typ Cps (OFF) All 0.5 - pF typ POWER SUPPLY Ipp All 10 10 mA max Iss All 6 6 mA max Power Dissipation All 240 240 mW max Vpp = + 15V,Vss = 15V NOTES Temperature ranges areas follows: ADG201HSJ, K; 40C to + 85C ADG201HSA, B; 40C to + 85C ADG201HSS, T; 55C to + 125C 2] eakage specifications apply withaVp (Vs) of + 14Vor witha Vp (Vs) of 0.5V within the supply voltages (V pp; Vss). whichever is the minimum. Specifications subject to change without notice. -2- REV. BADG201HS SINGLE SUPPLY (oo = + 10.8v to +16.5V, c,= GND = OV, Vy = 3V [Logic High Level] or 0.8V [Logic Low Level] unless otherwise noted) Parameter Version +25C Trin T max Units Comments ANALOG SWITCH Analog Signal Range All Vss Vsg Vmin All Vpp Vpp V max Ron All 65 - Otyp OV<Vs + 10V, Ips = 1mA; Test Circuit 1 All 90 120 OQ max Ron Drift All 0.5 - %PCtyp OV<Vs<+10V,Ips=lmA Ron Match All 3 - % typ OV<Vs< + 10V, Ips= 1mA Is(OFF), Off Input Leakage! All 0.1 nA typ Vp= +10V/+0.5V; Vs= +0.5V/+ 10V; Test Circuit 2 J,.K,A,B 1 20 nA max S,T 1 60 nA max Ip (OFF), Off Output Leakage! All 0.1 nA typ Vp= +10V/+0.5V; Vs= +0.5V/+ 10V; Test Circuit 2 J,K,A,B 1 20 nA max $,T 1 60 nA max Ip (ON), On Channel Leakage! All 0.1 nA typ Vp = Vs= + 10V/+0.5V; Test Circuit 3 J, K,A,B 1 20 nA max $,T 1 60 nA max DIGITAL CONTROL . Vinup Input High Voltage All 2.4 2.4 V min Vin.; Input Low Voltage All 0.8 0.8 Vmax Ip or Inn All 1 1 pA max Cin All 8 8 pF max DYNAMIC CHARACTERISTICS ton K,B,T 50 70 ns max Test Circuit 4 J,A,8 75 90 ns max torr) K,B,T 50 70 ns max Test Circuit 4 J,4; 75 90 ns max torr? All 150 - ns typ Test Circuit 4 topEN All 5 5 ns typ ton-torri; Test Circuit 4 Output Settling Time to 0.1% All 180 - ns typ Vin = 3V 10 OV; Test Circuit 4 OFF Isolation All 72 - dB typ Vs =3V rms, f= 100kHz, Ry = 1k9; , Cr = 10pF; Test Circuit 5 Channel-to-Channel Crosstalk All 86 - dB typ Vs =3V rms, f= 100kHz, R; = 1kQ; Cy = 10pF; Test Circuit 6 Qiny, Charge Injection All 10 - pCtyp Rs = 00, Vs =0V; Test Circuit 7 Cs (OFF) All 10 - pF typ Cp (OFF) All 10 - pF typ Cp, Cs (ON) All 30 - pF typ Cps (OFF) All 0.5 - pF typ POWER SUPPLY Ipp All 10 10 mA max Power Dissipation All 150 150 mWmax Vpp= t+15V NOTE 'The leakage specifications degrade marginally (typically InA at 25C) with Vp (Vs) = Vss. Specifications subject to change without notice. REV. B -3-ADG201HS ABSOLUTE MAXIMUM RATINGS* (Ta = 25C unless otherwise noted) Vpp to Vss ee ee ee eh 44V Vpn toGND ........0.0.0 2.00002 ae 0.3V, 25V Ves tOoGND! 2... ee ee +0.3V, 25V Analog Inputs? Voltage atS,D 2... .. ee ee ee Vss 2V to Vpp +2Vor 20mA, Whichever Occurs First Continuous Current, SorD ...........0.. 20mA Pulsed Current S or D lms Duration, 10% Duty Cycle .........., 70mA Digital Inputs? Voltage atIN ... 1... . ee es Vss 4V to Von +4Vor 20mA, Whichever Occurs First Power Dissipation (Any Package) Up to +75C Derates above + 75C by Operating Temperature Commerical (J, K Version) Industrial (A, B Version) Extended (S, T Version) Storage Temperature Range Lead Temperature (Soldering 10sec) ee 40C to + 85C 40C to + 85C 55C to +125C 65C to + 150C + 300C NOTES Tf Vsg is open circuited with Vpn and GND applied, the Vsg pin will be pulled positive, exceeding the Absolute Maximum Ratings. If this possibility exists, a Schottky diode from Vs to GND (cathode end to GND) ensures that the Absolute Maximum Ratings will be observed. 2Overvoltage at IN, S$ or D, will be clamped by diodes, Current should be limited to the maximum rating above. *COMMENT: Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. CAUTION: ESD (electrostatic discharge) sensitive device. The digital control inputs are diode protected; however, permanent damage may occur on unconnected devices subject to high energy electro- static fields. Unused devices must be stored in conductive foam or shunts. The protective foam should be discharged to the destination socket before devices are inserted. Ten = ae ESD SENSITIVE DEVICE PIN CONFIGURATIONS DIP, SOIC LCCC PLCC L/S cr BY 3 nN im [1] 6] IN2 32 1 2019 pb [2] 15] D2 $1 I 4] $2 $14 - 18 $2 Veg [4] ADG201HS 33] v,, Vss 5 Pl] ADG201HS ||91'7 Yoo ADG201HS eno [6] TOP VIEW Fa] Ne NC 6 TOP VIEW 16 NC TOP VIEW {Not to Scale) GND 7 {Not to Seale) 15 NC (Not to Scale) s4 [6] 11] $3 $48 14 $3 pa [7] 10] 03 9 10 11 12 13 ina [8 Po] INS 3928 NC = NO CONNECT NC = NO CONNECT NC = NO CONNECT REV. BTypical Performance Characteristics ADG201HS The switches are guaranteed functional with reduced single or dual supplies down to 4.5V. 80 80 70 70 60 60 a 50 a 50 5% 34 oo oev a c Ss . 20, -15 -10 5 0 5 10 15 20 Vp (Vg) Volts Ron as a Function of Vp (Vs): Dual Supply Voltage 30 Vpp = +13.5V 20 Vgg = -13.5V 10 0 20 -15 -10 -5 0 5 10 15 20 Vp (Vg) - Volts Ron as a Function of Vp (Vs): Dual Supply Voltage, Ta = +25C 80 100 | | Vpp = +16.5V 70 Veg =-16.5V Vpp= +10.8v | A < Lo} 60 VV < 10 Cc Vgg =0 \ ! Is (OFF) a 50 A z Ip Ord a Vpp = +15V VAN ) A = 7 In (ON) Vgg = 0 3 Ce z 40 ss o 1 L oe w L o 1 C1 30 $ 1] C1 a 20 so 1 ea 10 i" 0 20 -15 +10 -5 0 5 10 15 20 25 35 #45 #55 65 75 85 95 105 115 125 Vp (Vg) Volts Ron as a Function of Vp (Vs): Single Supply Voltage, TEMPERATURE - C Leakage Current as a Function of Temperature Dual Ta = 425C Supply Voltage. (Note: Leakage Currents Reduce as the Supply Voltages Reduce) 1.8 120 17 100 PS g g 80 __ 1 a 1.6 7 z TL > = iy <= 60 14.5 [- 2 R, Pe 3 ik 40 E 3 1.4 20 1.3 1 : i 1 1 0 10k 100k 1M 10M 5 6 7 8 9 10 11 12. 13 14 15 SUPPLY VOLTAGE - Volts FREQUENCY Hz Off lsolation vs. Signal Frequency; Dual or Single 15V Supplies, T4 = +25C Trigger Levels vs. Power Supply Voltage, Dual or Single Supply, Ta = +25C REV. B -5-ADG201HSTypical Performance Characteristics (Continued) 160 160 140 140 120 120 100 c 100 Z 80 Z 80 5 zg E 2 2 60 60 ton 40 ton 40 20 ores 20 lores o 0 5 6 7 8 9 1 4 #12 #13 14 15 5 6 %F BB 9 W 11 12 13 14 15 SUPPLY VOLTAGE - Volts SUPPLY VOLTAGE - Volts Switching Time vs. Supply Voltage (Dual Supply): Switching Time vs. Supply Voltage (Single Supply): Ta = +25C. (Note: See Test Circuit 4. Ta +25C. (Note: See Test Circuit 4. For Vop <70V, Vs = Vop) For Vop <10V, Vs = Von) Vop = +15V Vgg = 15V Vpp = +10.8V Veg = OV we a Cc c ' l g g z z = = oO oO E E = = aL ton ton tore: torr 0 0 55 -35 -15 5 25 45 65 B85 105 125 55 -35 -15 5 25 45 65 85 105 125 TEMPERATURE - C TEMPERATURE - C Switching Time vs. Temperature: Dual Supply Voltage Switching Time vs. Temperature: Single Supply Voltage g Vpp = +10.8V Q Vpp = +15V i Vgg =-10.8V 2 Vgg = -15V 5 5 6 5 wi wi Zz Fs Ww ww S o = Vpp = +10.8V & 5 Vgg = OV 5 Vpp = +15V Vag = OV -10 8 6 +4 2 0 2 4 6 8 10 -10 -8 - -4 -2 0 2 4 6 8 10 SOURCE VOLTAGE (V,) - Volts SOURCE VOLTAGE (Vg) - Volts Charge Injection vs. Source Voltage (Vs) for Dual and Charge Injection vs. Source Voltage (Vs) for Dual and Single 10.8V Supplies: Ta = +25C Single 15V Supplies: T4 = +25C -6- REV. BTest Circuits ADG201HS Note: All digital input signal rise and fall times measured from 10% to 90% of 3V. tg = tp = 5ns. Decoupling capacitors (0.01uF min) from Vpp and Vss to GND are recommended to achieve specified performance. TEST CIRCUIT 1 TEST CIRCUIT 2 TEST CIRCUIT 3 Ron Is (OFF), Ip (OFF) Ip(ON) = CD Vpp Vop <<__ v1 __> > + Yop Is(OFF) Vpp Ip(OFF) Vop Ip(ON) () ss, 2 () 8 52 () Yoo Po IN == in! s D Vs Lob 3y Yo Vs = osvo+--H = Ve TaN GND Vg5 b G GND Veg t 3; LLL o.ev + we v GND Vss| p _ VI Ves Vss Tt Vss TEST CIRCUIT 4 ton; torF, topeEN, SETTLING TIME Vop 7 3V Vop Ip(OFF) Vin 50% 50% s D ov =o tT Vo ! aa torr 10v = | S1k2 y 90% 90% y GND Veg LW 7 35pF 0 i fT IN oo ton Pi torre Vss TEST CIRCUIT 5 TEST CIRCUIT 6 OFF ISOLATION CHANNEL-TO-CHANNEL CROSSTALK Yop Vpp mostrar =4 s DF--7 . rs Sool =p Vo rp --e-- 4 ote re ltopr o ror 1 r i IN Pr Skea sot 4 Go sh soy" IN T V5 GND Veg TOPF fF tke Vs robo av a =e 3V Ao NOP EB F0 Yo Ves v GND ss o PF Ska OFF ISOLATION = zt 20 X LOG|Vg/Vo| + CHANNEL ISOLATION = 20 X LOG |Vs/Vo| TEST CIRCUIT 7 CHARGE INJECTION Vpp 7 av I Rg | Yoo Vin \ Lf So No] v 1 ! IN Gy pO Vo Y oe GND Veg A Vin ao Qing = OL XAVo Ves REV. BADG201HS SINGLE SUPPLY DISK DRIVE APPLICATION 16-Pin Plastic DIP (N-16) The excellent performance of the ADG201HS with single supply operation makes it suitable in applications such as disk drives aa SS where only positive power supply voltages are normally available. 0.26 (6.61) The accompanying circuit shows a typical application for the nN 0.24 (6.1) ADG201HS in the read/write head switching section of a disk 1 drive. The circuit allows data (Os and 1s) to be written to and , ee + aor aah read from a disk. The principal advantage offered by the on? (430 314 (3.56) ADG201HS is that it retains very fast switching speed with "Max 0.12 (3.08) single supply operation (see Single Supply Specifications). This ue WUT WE 0.175 (4.48) 0.012 (0.208) allows disk drives to run at higher data rates. SEATING A r 0:12 (3.05) 8.008 (0.203) PLANE - > > 0.02 (0.508) 0.065 (1.66) 0.105 (2.67) 15 0.015 (0.387; G0a5 (7.15) 0.085 (2.42) o LEAD NO. t IDENTIFIED BY DOT OR NOTCH LEADS ARE SOLDER OR TIN-PLATED KOVAR OR ALLOY 42 16-Pin Cerdip (Q-16) 0.30 (7.62) 0.24 (6.1) o1 0.32 (8.128) SWITCHES 1 TO 5 ALL ADG201HS. |____szssisean "_} " ozo (see) (* SWITCH STATES/FUNCTION 0.188 (3.897) 0.18 (4.572) MAX 0.14 (3.56) SWITCH WRITE 7 0.015 (0.381) NUMBER "9" mq READ 0.008 (0.203) SEATING 2 | on | off | OFF PLANE pile ed be aso ON 0.023 (0.584) 0.112.794) 0.071.778) (3.81) 15 ; oe or ON 0.015 (0.381) 0.09 (2.28) 0.03 (0.762) MIN 0 F 5 ON ON OFF LEAD NO. 1 IDENTIFIED BY DOT OR NOTCH LEADS ARE SOLDER OR TIN-PLATED KOVAR OR ALLOY 42 ADG201HS in the Read/Write Head Switching Circuit of a Disk Drive g 16-Lead Narrow Body SOIC (R-16A) OUTLINE DIMENSIONS Dimensions shown in inches and (mm). 0.1874 (4.00) 0.1497 (3.80) . : . . PIN4 20-Terminal Plastic Leaded Chip Carrier 0.2440 (6.20) (P-20A) 0.2284 (5.80) 0.3837 (10.00) 0.0196 (0.50), 0.048 (1.21) 0.180 (4.57) r* 0.3859 (9.80) +| Y >| | sa088 (025) x45 0.042 (1.07) 0.056 (1.42) 0,165 (4,19) SSS 150888 (1.78) | 1 * 9.042 (1.07) 0.026 (0.68) aw Bo Poossaia) Uf TL 0.015 (0.28) ee tLe 0.048 (1.21) t-|- | fet el be f F 8 > ee 0.042 (1.07) Tr 3 o__19 0.021 (0.53) aad 0.0800 0.0192 (0.49) o.o0es (0.25) 0.0500 (1.27) qs IDENTIFIER 0.013 (0.33) 0040 (0.10) Cae 0.0138 (0.95) 0.0078 (0.19) 0.0160 (0.41) t q n 0.390 (8.38) an q TOP VIEW 0 0.280 (7.37) BSc 7 0 20-Terminal Leadless Ceramic Chip Carrier Qs ; 4] (E-20A) 13 Oo Li orc 0,082 + 0.018 0.040 (1.01) 0.986 (9.04) ae (2.085 # 0.485) 0.380 + 0.008 go | Le 380 (aaa) 8 rl 8.025 (0.64) ie f (8.89 + 0.20) (1.02 x 48) 0.305 (10.02) 0.110 (2.78) REF 3 PLCS 0.385 (9.78) 8 0.085 (2.168) 5 0.025 = 0.0103 PINA (0.635 + 0.075) IDENTIFIER Ls 7 BOTTOM VIEW 0.20 x 45 (0.51 x 45) REF -8- REV. B 1178-1N_A/RR RINTED IN U.S.A.