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| HV209 12-Channel High Voltage Analog Switch Features HVCMOS technology for high performance Operating voltage of up to 200V Output On-resistance typically 22 Integrated bleed resistors on the outputs Very low quiescent power dissipation -10A Low parasitic capacitances -58dB typical output off isolation at 5MHz 5.0V to 12V CMOS logic circuitry Excellent noise immunity Flexible high voltage supplies General Description The Supertex HV209 is a 200V low charge injection 12channel high voltage analog switch configured as 6 SPDT analog switch intended for medical ultrasound applications. Bleed resistors are integrated on the output switches to eliminate charge built up on the piezo electric transducers. The bleed resistors are at a nominal value of 35K? ? Using HVCMOS technology, this device combines high voltage bilateral DMOS switches and low power CMOS logic to provide efficient control of high voltage analog signals. The outputs are configured as single pole double throw analog switches. Data is shifted into a 6-bit shift register using an external clock. The LE latches the shift register data into the individual switch latches. A logic high connects a switch common YX to SWX. A logic low connects YX to SWX. A logic hi in CL resets all switches to SWX simultaneously. Block Diagram VPP D LE CL VNN SW0 High Voltage Level Translator Y0 SW0 SW1 D LE CL High Voltage Level Translator Y1 SW1 VDD CLK DIN DOUT GND 6 BIT SHIFT REGISTER SW2 D LE CL High Voltage Level Translator Y2 SW2 SW3 D LE CL High Voltage Level Translator Y3 SW3 SW4 D LE CL High Voltage Level Translator Y4 SW4 SW5 D LE CL CL LE High Voltage Level Translator Y5 SW5 RGND1 / RGND2 Ordering Information VPP - VNN 200V Package Option 48-pin LQFP/TQFP (1.4mm) HV209FG HV209FG-G -G indicates that the package is RoHS compliant ('Green') Absolute Maximum Ratings VDD Logic power supply voltage VPP - VNN Supply voltage VPP Positive high voltage supply VNN Negative high voltage supply Logic input voltages VSIG Analog Signal Range Peak analog signal current/channel Storage temperature Power dissipation O -0.5V to +15V +220V -0.5V to +200V +0.5V to -200V -0.5V to VDD +0.3V VNN to V PP 3.0A -65 C to +150OC 1.0W All voltages are referenced to ground. Absolute maximum ratings are those values which damage to the device may occur. Functional operation under these conditions is not implied. Continuous operation of the device at the absolute rating level may affect device reliability. 2 HV209 Electrical Characteristics DC Characteristics (over recommended operating conditions unless otherwise noted) Characteristics Sym 0C min max 30 25 Small Signal Switch (ON) Resistance RONS 25 18 23 22 Small Signal Switch (ON) Resistance Matching Large Signal Switch (ON) Resistance Output Switch Shunt Resistance DC Offset Switch Off DC Offset Switch On Pos. HV Supply Current Neg. HV Supply Current Pos. HV Supply Current Neg. HV Supply Current Switch Output Peak Current Output Switch Frequency fSW 6.5 IPP Supply Current IPP 4.0 4.0 6.5 INN Supply Current INN 4.0 4.0 Logic Supply Average Current Logic Supply Quiescent Current Data Out Source Current Data Out Sink Current Logic Input Capacitance IDD IDDQ ISOR ISINK CIN 0.45 0.45 10 4.0 10 0.45 0.45 0.70 0.70 10 IPPQ INNQ IPPQ INNQ 3.0 RONS RONL RINT 50 50 10 -10 10 -10 3.0 20 20 min +25C typ 26 22 22 18 20 16 5.0 15 35 50 50 50 50 -50 50 -50 2.0 50 7.0 5.0 5.0 7.0 5.0 5.0 4.0 10 0.40 0.40 10 8.0 5.5 5.5 8.0 5.5 5.5 4.0 10 mA A mA mA pF VOUT = VDD - 0.7V VOUT = 0.7V mA mA 2.0 50 50 max 38 27 27 24 25 25 20 +70C min max 48 32 30 27 30 27 20 % ohms K mV mV A A A A A KHz ohms Units Test Conditions ISIG = 5mA ISIG = 5mA ISIG = 5mA VPP = 40V, VPP = 100V, VPP = 190V, ISIG = 200mA VNN = -160V ISIG = 200mA VNN = -100V ISIG = 200mA VNN = -10V ISW = 5mA, VPP = 100V, VNN = -100V VSIG = VPP - 10V, ISIG = 1A Output switch to RGND IRINT = 0.5 mA No Load, RGND = 0V No Load, RGND = 0V ALL SWs OFF ALL SWs OFF ALL SWs ON ISW = 5mA ALL SWs ON ISW = 5mA VSIG duty cycle 0.1% Duty Cycle = 50% VPP = 40V, VNN = -160V VPP = 100V, VNN = -100V VPP = 190V, VNN = -10V VPP = 40V, VNN = -160V VPP = 100V, VNN = -100V VPP = 190V, VNN = -10V fCLK = 5MHz, VDD = 5.0V 50KHz Output Switching Frequency with no load 3 HV209 Electrical Characteristics AC Characteristics (over operating conditions VDD = 5V, unless otherwise noted) Characteristics Set Up Time Before LE Rises Time Width of LE Clock Delay Time to Data Out Time Width of CL Set Up Time Data to Clock Hold Time Data from Clock Clock Freq Turn On Time Turn Off Time Sym tSD tWLE tDO tWCL tSU th fCLK tON tOFF 150 15 35 5.0 5.0 5.0 20 Maximum VSIG Slew Rate dv/dt 20 20 Off Isolation KO -30 -58 Switch Crosstalk Output Switch Isolation Diode Current Off Capacitance SW to GND On Capacitance SW to GND Positive Output Voltage Spike Negative Output Voltage Spike KCR IID CSG(OFF) CSG(ON) +VSPK -VSPK 5.0 25 -60 300 17 50 150 150 5.0 25 12 38 -30 -58 -60 -70 300 17 50 150 150 5.0 25 -33 0C min 150 150 150 150 15 35 5.0 5.0 5.0 20 20 20 -30 -58 -60 300 17 50 150 150 8.0 max min 150 150 150 150 20 35 5.0 5.0 5.0 20 20 20 dB dB dB mA pF pF mV mV V/ns +25C typ max min 150 150 150 +70C max Units ns ns ns ns ns ns MHz s s 50% duty cycle fDATA = fCLK/2 VSIG = VPP -10V, RL = 10K VSIG = VPP -10V, RL = 10K VPP = 40V, VNN = -160V VPP = 100V, VNN = -100V VPP = 190V, VNN = -10V f = 5MHz, 1K//15pF load f = 5MHz, 50 load f = 5MHz, 50 load 300ns pulse width, 2.0% duty cycle 0V, 1MHz 0V, 1MHz RLOAD = 50 RLOAD = 50 Test Conditions 4 HV209 Operating Conditions* Symbol VPP VNN VDD VIH VIL VSIG TA Notes: 1 2 Power up/down sequence is arbitrary except GND must be powered-up first and powered-down last. VSIG must be within VPP and VNN voltage range or floating during power up/down transition. Parameter Positive high voltage supply1 supply1 Value +40V to VNN+ 200V -10V to -160V +4.5V to +13.2V 0.8 VDD to VDD 0V to 0.2VDD VNN +10V to VPP -10V 0C to 70C Negative high voltage Logic power supply voltage1 High-level input voltage Low-level input voltage Analog signal voltage peak-to-peak2 Operating free air-temperature Truth Table Data Inputs DO L H L H L H L H L H L H X X X X X X X X X X X X D1 D2 D3 D4 D5 LE L L L L L L L L L L L L H X CL L L L L L L L L L L L L L H SW0 HOLDS PREVIOUS STATE SW1 SW2 SW3 SW4 SW5 Y0 SW0 SW0 SW1 SW1 SW2 SW2 SW3 SW3 SW4 SW4 SW5 SW5 Y1 Y2 Switch States Y3 Y4 Y5 5 HV209 Test Circuits VPP -10V RL VOUT VOUT VOUT RL 10K VIN = 10 VP-P @5MHz VPP VNN VPP VNN VDD GND 5V VPP VNN VPP VNN VDD GND 5V VPP VNN VPP VNN VDD GND VOUT VIN 5V KO = 20Log DC Offset ON/OFF TON /TOFF Test Circuit OFF Isolation VSIG IID VNN VIN = 10 VP-P @5MHz 50 NC 50 VOUT VOUT 1000pF VSIG VPP VNN VPP VNN VDD GND 5V VPP VNN VPP VNN VDD GND VOUT VIN 5V VPP VNN VPP VNN VDD GND 5V KCR = 20Log Q = 1000pF x VOUT Isolation Diode Current Crosstalk Charge Injection +VSPK VOUT -VSPK 50 1K RL VPP VNN VPP VNN VDD GND 5V Output Voltage Spike 6 HV209 Logic Timing Waveforms DN+1 DATA IN 50% DN 50% DN-1 LE 50% 50% t WLE t SD 50% 50% th t DO CLOCK t SU DATA OUT 50% t OFF t ON OFF V OUT (TYP) ON 90% 10% CLR 50% t WCL 50% 7 HV209 Block Diagram VPP VNN SW0 D LE CL High Voltage Level Translator Y0 SW0 SW1 D LE CL High Voltage Level Translator Y1 SW1 VDD CLK DIN DOUT GND 6 BIT SHIFT REGISTER SW2 D LE CL High Voltage Level Translator Y2 SW2 SW3 D LE CL High Voltage Level Translator Y3 SW3 SW4 D LE CL High Voltage Level Translator Y4 SW4 SW5 D LE CL CL LE High Voltage Level Translator Y5 SW5 RGND1 / RGND2 8 HV209 Pin Configuration HV209 48-Lead LQFP/ TQFP (1.4mm) Pin Function Pin Function 1 N/C 25 SW5 2 SW0 26 Y5 3 Y0 27 SW5 4 SW0 28 N/C 5 N/C 29 SW3 6 SW2 30 Y3 7 Y2 31 SW3 8 SW2 32 N/C 9 N/C 33 SW1 10 SW4 34 Y1 11 Y4 35 SW1 12 SW4 36 N/C 13 N/C 37 RGND1 14 N/C 38 N/C 15 N/C 39 DOUT 16 VNN 40 VDD 17 N/C 41 DIN 18 N/C 42 CLR 19 N/C 43 LE 20 N/C 44 CLK 21 VPP 45 GND 22 N/C 46 N/C 23 N/C 47 N/C 24 N/C 48 RGND2 48-Lead LQFP/ TQFP (1.4mm) 9.00 0.20 7.00 0.20 0.22 0.05 9.00 0.20 7.00 0.20 1.75 nom 48 1.75 nom 1 0.50 BSC (4 places) Top View 1.60 max 1.40 0.05 0.09 - 0.20 0.05 - 0.15 0O - 7O 0.45 - 0.75 Side View Linear dimensions in millimeters. Angular dimensions in degrees Pin 1 identifier located within the area indicated Corner shape may differ from drawing. . A062906 |
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