SUPERTEX HV219

HV219
HV219
Initial Release
Low Charge Injection
8-Channel High Voltage Analog Switch
Features
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General Description
HVCMOS technology for high performance
Very low quiescent power dissipation-10µA
Output On-resistance typically 11Ω
Low parasitic capacitance
DC to 10MHz analog signal frequency
-60dB typical off-isolation at 5MHz
CMOS logic circuitry for low power
Excellent noise immunity
Serial shift register logic control with latches
Flexible operating supply voltages
Surface mount packages
The Supertex HV219 is a low switch resistance, low charge
injection 8-channel 200V analog switch integrated circuit (IC)
intended primarily for medical ultrasound imaging. The device can
also be used for NDE, non-destructive evaluation applications. The
HV219 is a lower switch resistance, 11ohms versus 22ohms,
version of the Supertex HV20220 device. The lower switch
resistance will help reduce insertion loss. It has the same pin
configuration as that of the Supertex HV20220PJ and the
HV20220FG.
The device is manufactured using Supertex’s HVCMOS (high
voltage CMOS) technology with high voltage bilateral DMOS
structures for the outputs and low voltage CMOS logic for the input
control. The outputs are configured as eight independent single
pole single throw 11 ohms analog switches. The input logic is an 8bit serial to parallel shift register followed by an 8-bit parallel latch.
The switch states are determined by the data in the latch. Logic
high will correspond to a closed switch and logic low as an opened
switch.
Applications
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Medical Ultrasound Imaging
Non-Destructive Evaluation
The HV219 is designed to operate on various combinations of high
voltage supplies. For example the VPP and VNN supplies can be:
+40V/-160V, +100V/-100V, or +160V/-40V. This allows the user to
maximize the signal voltage for uni-polar negative, bi-polar, or unipolar positive.
Block Diagram
LATCHES
LEVEL
SHIFTERS
OUTPUT
SWITCHES
D
LE
CL
SW0
D
LE
CL
SW1
D
LE
CL
SW2
D
LE
CL
SW3
D
LE
CL
SW4
D
LE
CL
SW5
D
LE
CL
SW6
D
LE
CL
SW7
DIN
CLK
8 BIT
SHIFT
REGISTER
DOUT
VDD
GND
LE
CL
VNN VPP
A042705
Rev. 2 110504
1
HV219
Ordering Information
VPP-VNN
200V
Maximum Analog
Switch Voltage
180VP-P
Package Options
28-lead plastic chip carrier PLCC
48-lead TQFP
HV219PJ
HV219FG
Die
HV219X
Absolute Maximum Ratings*
VDD Logic supply
VPP-VNN differential supply
VPP Positive supply
VNN Negative supply
Logic input voltage
Analog signal range
Peak analog signal current
Storage temperature
Power dissipation
-0.5V to +15V
220V
-0.5V to VNN+200V
+0.5V to –200V
-0.5V to VDD+0.3V
VNN to VPP
3.0A
-65°C to +125°C
28-Lead PLCC
1.2W
48 Lead TQFP
1.0W
*Absolute Maximum Ratings are those values beyond 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. All voltages are referenced to device ground.
Operating Conditions
Symbol
VDD
VPP
VNN
VIH
VIL
VSIG
TA
Parameter
Logic power supply
Positive high voltage supply
Negative high voltage supply
Input logic voltage high
Input logic voltage low
Analog signal voltage peak to peak
Operating free air temperature
Value
4.5V to 13.2V
40V to VNN+200V
-40V to -160V
VDD-1.5V to VDD
0V to 1.5V
VNN+10V to VPP-10V
0°C to 70°C
2
A042705
HV219
Electrical Characteristics
DC Characteristics (over recommended operating conditions unless otherwise noted)
Sym
RONS
∆RONS
RONL
ISOL
IPPQ
INNQ
IPPQ
INNQ
fSW
IPP
INN
IDD
IDDQ
ISOR
ISINK
CIN
Parameter
Small Signal Switch
On-Resistance
Min
0°C
Max
15
13
13
9
12
11
Small Signal Switch
On-Resistance Matching
Large Signal Switch
On-Resistance
Switch Off Leakage per
Switch
DC offset Switch off
DC offset Switch on
Quiescent VPP supply
current
Quiescent VNN supply
current
Quiescent VPP supply
current
Quiescent VNN supply
current
Switch output peak current
Output switch frequency
20
+25°C
Typ
13
11
11
9
10
8
Max
19
14
14
12
13
13
5.0
20
+70°C
Min
Max
24
16
15
14
15
14
20
8
Average VNN supply
current
Units
Ohms
%
Ohms
Conditions
VPP = +40V
ISIG = 5mA
VNN = -160V
ISIG = 200mA
VPP = +100V
ISIG = 5mA
VNN = -100V
ISIG = 200mA
VPP = +160V
ISIG = 5mA
VNN = -40V
ISIG = 200mA
ISIG = 5mA, VPP = +100V,
VNN = -100V
VSIG = VPP-10V, ISIG = 1A
5.0
1.0
10
15
µA
VSIG = VPP-10V and VNN+10V
300
500
100
100
300
500
300
500
mV
mV
RLOAD = 100KΩ
RLOAD = 100KΩ
10
50
µA
All switches off
-10
-50
µA
All switches off
10
50
µA
All switches on, ISW = 5mA
-10
-50
µA
All switches on, ISW = 5mA
3.0
2.0
50
2.0
A
kHz
6.5
7.0
8.0
4.0
5.0
5.5
4.0
5.0
5.5
6.5
7.0
8.0
4.0
5.0
5.5
4.0
5.0
5.5
VSIG duty cycle < 0.1%
Duty cycle = 50%
VPP = +40V
VNN = -160V
VPP = +100V
VNN = -100V
All output
VPP = +160V
switches are
turning On
VNN = -40V
and Off at
VPP = +40V
50KHz with
VNN = -160V
no load.
VPP = +100V
VNN = -100V
VPP = +160V
VNN = -40V
4.0
4.0
4.0
mA
fCLK = 5MHz, VDD = 5.0V
10
10
10
µA
All logic inputs are static
VOUT = VDD-0.7V
VOUT = 0.7V
10
mA
mA
pF
3.0
Average VPP supply
current
Average VDD supply
current
Quiescent VDD supply
current
Data out source current
Data out sink current
Logic input capacitance
Min
0.45
0.45
0.45
0.45
0.70
0.70
10
0.40
0.40
10
3
mA
mA
A042705
HV219
Electrical Characteristics
AC Characteristics (over recommended operating conditions, V
Sym
tSD
Parameter
Set Up Time Before LE Rises
0°C
Min
Max
150
Min
150
150
150
DD
=5.0V, unless otherwise noted)
+25°C
Typ
Max
+70°C
Min
Max
150
150
Unit
s
ns
ns
ns
ns
ns
ns
tWLE
tDO
twCL
tSU
tH
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
fCLK
Clock Frequency
5.0
5.0
5.0
MHz
tr,tf
Clock rise and fall Times
50
50
50
ns
Ton
Turn on Time
5.0
5.0
5.0
µs
Toff
Turn off Time
5.0
5.0
5.0
µs
20
20
20
20
20
20
20
20
20
dv/dt
KO
Kcr
Iid
CSG(off)
CSG(on)
+VSPK
150
150
15
35
Maximum VSIG Slew Rate
Off Isolation
Switch Crosstalk
Output Switch Isolation Diode
Current
Off Capacitance SW to Gnd
On Capacitance SW to Gnd
150
150
15
35
-30
-30
-58
-58
-60
8.0
-33
25
60
-VSPK
dB
dB
300
14
40
20
50
-VSPK
+VSPK
-30
V/ns
-58
300
14
40
150
150
20
35
25
60
150
200
150
Output Voltage Spike
200
+VSPK
150
-VSPK
200
14
40
300
mA
25
60
pF
pF
mV
mV
mV
1450
Q
1050
Charge Injection
550
4
Conditions
pC
50% duty cycle,
fDATA = fCLK/2
VSIG = VPP-10V,
RLOAD = 10KΩ
VSIG = VPP-10V,
RLOAD = 10KΩ
VPP = +40V,
VNN = -160V
VPP = +100V,
VNN = -100V
VPP = +160V,
VNN = -40V
F = 5MHz, 1KΩ//15pF
load
F = 5.0MHz, 50Ω load
F = 5.0MHz, 50Ω load
300ns pulse width, 2.0%
duty cycle
0V, f = 1MHz
0V, f = 1MHz
VPP = +40V,
VNN = -160V,
RLOAD = 50ohm
VPP = +100V,
VNN = -100V,
RLOAD = 50ohm
VPP = +160V,
VNN = -40V,
RLOAD = 50ohm
VPP = +40V,
VNN = -160V,
VSIG = 0V
VPP = +100V,
VNN = -100V,
VSIG = 0V
VPP = +160V,
VNN = -40V,
VSIG = 0V
A042705
HV219
Power Up/Down Sequence
1)
Power up/down sequence is arbitrary except GND must be powered up first and powered down last. This applies for
applications powering GND of the IC with different voltages.
Vsig must always be at or in between VPP and VNN or floating during power up/down transition.
Rise and fall times of the power supplies VDD, VPP, and VNN should not be less than 1.0ms.
2)
3)
Logic Truth Table
Data in the 8-bit Shift Register
D1 D2 D3 D4 D5 D6 D7
D0
L
H
L
H
L
H
L
H
L
H
L
H
L
H
X
X
X
X
Notes:
1.
2.
X
X
X
X
X
X
X
X
L
H
X
X
X
X
LE
CL
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
H
X
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
H
SW0
OFF
ON
SW1
SW2
Output Switch State
SW3
SW4
SW5
SW6
SW7
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
OFF
HOLD PREVIOUS STATE
OFF
OFF
OFF
OFF
OFF
OFF
The eight switches operate independently.
Serial data is clocked in on the L to H transition clock.
3.
The switches go to a state retaining their present condition at the rising edge of the LE .
4.
When LE is low, the shift register data flows through the latch.
5.
6.
Shift register clocking has no effect on the switch states if LE is high.
The clear input overrides all other inputs.
Logic Timing Waveform
DN-1
DN+1
DN
DATA
IN
50%
LE
50%
50%
50%
t WLE
t
SD
50%
50%
CLOCK
t
t
SU
t
DATA
OUT
DD
50%
t
VOUT OFF
t ON
OFF
90%
(TYP)
10%
ON
CLR
h
50%
50%
t WCL
5
A042705
HV219
Test Circuits
VPP -10V
VPP -10V
RL
ISOL
10KΩ
VOUT
VOUT
100KΩ
VNN +10V
VPP
VPP
VDD
VNN
VNN
GND
5V
RL
VPP
VPP
VDD
VNN
VNN
GND
5V
VPP
VPP
VDD
VNN
VNN
GND
TON /TOFF Test Circuit
DC Offset ON/OFF
Switch OFF Leakage
5V
VIN = 10 VP-P
@5MHz
VIN = 10 VP-P
@5MHz
VSIG
IID
VOUT
50Ω
NC
VNN
RL
50Ω
VPP
VPP
VDD
VNN
VNN
GND
KO = 20Log
5V
VPP
VPP
VDD
VNN
VNN
GND
5V
VPP
VPP
VDD
VNN
VNN
GND
VOUT
VIN
KCR = 20Log
OFF Isolation
Isolation Diode Current
5V
VOUT
VIN
Crosstalk
+VSPK
VOUT
VOUT
VOUT
-V SPK
1000pF
50Ω
VSIG
1KΩ
VPP
VPP
VDD
VNN
VNN
GND
5V
RL
VPP
VPP
VDD
VNN
VNN
GND
5V
Q = 1000pF x VOUT
Charge Injection
Output Voltage Spike
6
A042705
HV219
Pin Configuration
28-Pin J-lead
Package Outline
0.450 ± 0.005
(11.430 ± 0.127)
D1
Pin #1
B
D
0.480 ± 0.010
(12.192 ± 0.254)
0.027 ± 0.003
(0.6858 ± 0.0762)
28 Pin J-Lead
Pin Function
1
SW3
2
SW3
3
SW2
4
SW2
5
SW1
6
SW1
7
SW0
8
SW0
9
N/C
10
VPP
11
N/C
12
VNN
13
GND
14
VDD
Pin
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Function
N/C
DIN
CLK
LE
CL
DOUT
SW7
SW7
SW6
SW6
SW5
SW5
SW4
SW4
e
0.050 ± 0.010
(1.270 ± 0.254)
0.1725 ± 0.0075
(4.3815 ± 0.1905)
A
A2
0.020
min.
(0.508)
0.410 ± 0.010
(10.414 ± 0.254)
B.C. of Bend Radii
Q
0.110 ± 0.010
(2.794 ± 0.254)
25
24
23
22
21
20
19
26
18
27
17
28
16
1
15
2
14
3
13
4
12
5
6
7
8
9
10
11
Measurement Legend =
Top View
28-Pin J-Lead Package
7
Dimensions in Inches
(Dimensions in Millimeters)
A042705
HV219
Pin Configuration
48-Pin TQFP
0.024 ± 0.008
(0.610 ± 0.2032)
D, E
0.354 ± 0.010
(8.992 ± 0.254)
L
0.354 ± 0.010
(8.992 ± 0.254)
Pin #1
0.275 ± 0.004
(6.985 ± 0.102)
D1, E1
0° - 7°
0.275 ± 0.004
(6.985 ± 0.1016)
A
A2
0.055 ± 0.004
(1.397 ± 0.102)
0.020
BSC
(0.508)
0.059 ± 0.004
(1.4986 ± 0.102)
0.039
TYP.
(0.991)
48-Pin TQFP
Pin Function
1
SW5
2
N/C
3
SW4
4
N/C
5
SW4
6
N/C
7
N/C
8
SW3
9
N/C
10
SW3
11
N/C
12
SW2
13
N/C
14
SW2
15
N/C
16
SW1
17
N/C
18
SW1
19
N/C
20
SW0
21
N/C
22
SW0
23
N/C
24
VPP
Pin
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
Function
VNN
N/C
N/C
GND
VDD
N/C
N/C
N/C
DIN
CLK
LE
CLR
DOUT
N/C
SW7
N/C
SW7
N/C
SW6
N/C
SW6
N/C
SW5
N/C
Pin 1
Pin #1
HV219
Measurement Legend =
Dimensions in Inches
(Dimensions in Millimeters)
Pin 12
top view
48-pin TQFP
A042705
8
A042705