HV2809 DATA SHEET (06/22/2014) DOWNLOAD

Supertex inc.
HV2809
Low Harmonic Distortion, 32-Channel,
High Voltage Analog Switch Relay Replacement IC
General Description
Features
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32-channel high voltage analog switch
2:1 multiplexer/demultiplexer
Enable control for all-OFF state
3.3 or 5.0V CMOS input logic level
HVCMOS technology for high performance
Very low quiescent power dissipation, 10µA
Low parasitic capacitance
DC to 50MHz analog signal frequency
-60dB typical OFF-isolation at 5.0MHz
CMOS logic circuitry for low power
Excellent noise immunity
Flexible operating supply voltages
56-Lead 8x8 QFN package
Applications
►► Electromechanical relay replacement in
medical ultrasound probes.
The Supertex HV2809 is a low harmonic distortion, 32-channel, high
voltage analog switch integrated circuit (IC), designed for use in medical
ultrasound imaging systems as a probe selection relay replacement.
It serves as a 16PDT (16-pole, double throw) high voltage analog
switch array. The enable function allows the parts to be configured
as either a 2:1 or 4:1 multiplexer/demultiplexer. The HV2809 is a very
fast transducer multiplexer that consumes minimal power and emits
no audible noise.
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 device is suitable for various combinations of high voltage
supplies, e.g., VPP/VNN: +40V/-160V, +100V/-100V, and +160V/-40V.
The HV2809 comes in an 8.0mm x 8.0mm x 1.0mm, 56-Lead QFN
package. Compared to an electromechanical relay, it not only saves
considerable PCB area, but also saves on the PCB assembled height.
Block Diagram
+3.3V
1kΩ
Output
Switches
VDD
SW0
0.1µF
Y01
Logic
Control
&
Level
Shifters
A/B
ENABLE
SW1
SW30
Y3031
SW31
GND
VNN
VPP
-100V
0.1µF
Doc.# DSFP-HV2809
NR010913
+100V
0.1µF
Supertex inc.
www.supertex.com
HV2809
Pin Configuration
Ordering Information
56
Part Number
Package Options
Packing
HV2809K6-G
56-Lead (8x8) QFN
250/Tray
HV2809K6-G M937
56-Lead (8x8) QFN
2000/Reel
1
- G indicates package is RoHS compliant (‘Green’)
ESD Sensitive Device
Absolute Maximum Ratings
Parameter
56-Lead QFN
(top view)
Value
VDD logic supply
-0.5V to +6.5V
VPP-VNN differential supply
VPP positive supply
220V
-0.5V to VNN +200V
VNN negative supply
+0.5V to -200V
Logic input voltage
-0.5V to VDD +0.3V
Analog signal range
VNN to VPP
Peak analog signal current/channel
Storage temperature
3.0A
Product Marking
HV2809K6
LLLLLLLLL
YYWW
AAA CCC
Package may or may not include the following marks: Si or
56-Lead QFN
-65°C to 150°C
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.
L = Lot Number
YY = Year Sealed
WW = Week Sealed
A = Assembler ID
C = Country of Origin
= “Green” Packaging
Typical Thermal Resistance
Package
θja
56-Lead QFN
21OC/W
Recommended Operating Conditions
Sym
Parameter
Value
VDD
Logic power supply voltage
3.0 to 5.5V
VPP
Positive high voltage supply
+40 to VNN +200V
VNN
Negative high voltage supply
-40 to -160V
VIH
High level input voltage
0.9VDD to VDD
VIL
Low level input voltage
0 to 0.1VDD
VSIG
Analog signal voltage peak-to-peak
VNN +10V to VPP -10V
Operating free air temperature
0 to 70OC
TA
Notes:
1. Power up/down sequence is arbitrary except GND must be powered-up first and powered-down last.
2. VSIG must be VNN ≤ VSIG ≤ VPP or floating during power up/down transition.
3. Rise and fall times of power supplies VDD, VPP, and VNN should not be less than 1.0msec.
Doc.# DSFP-HV2809
NR010913
2
Supertex inc.
www.supertex.com
HV2809
DC Electrical Characteristics (Over recommended operating conditions unless otherwise specified )
Sym
Parameter
0OC
+25OC
+70OC
Unit Conditions
Min
Max
Min
Typ
Max
Min
Max
-
30
-
26
38
-
48
-
25
-
22
27
-
32
-
25
-
22
27
-
30
-
18
-
18
24
-
27
-
23
-
20
25
-
30
-
22
-
16
25
-
27
Small signal switch
ON-resistance matching
-
20
-
5.0
20
-
20
%
RONL
Large signal switch
ON-resistance
ISIG = 5.0mA,
VPP = +100V, VNN = -100V
-
-
-
15
-
-
-
Ω
VSIG = VPP -10V, ISIG = 1A
ISOL
Switch OFF-leakage per switch
-
5.0
-
1.0
10
-
15
μA
VSIG = VPP -10V, VNN +10V
DC offset switch OFF
-
300
-
100
300
-
300
DC offset switch ON
-
500
-
100
500
-
500
mV
100kΩ load
IPPQ
Quiescent VPP supply current
-
-
-
10
50
-
-
INNQ
Quiescent VNN supply current
-
-
-
-10
-50
-
-
μA
All switches OFF
IPPQ
Quiescent VPP supply current
-
-
-
10
50
-
-
INNQ
Quiescent VNN supply current
-
-
-
-10
-50
-
-
μA
All switches ON,
ISW = 5.0mA
ISW
Switch output peak current
-
3.0
-
3.0
2.0
-
2.0
A
VSIG duty cycle < 0.1%
fSW
Output switching frequency
-
-
-
-
50
-
-
kHz
Duty cycle = 50%
-
13
-
-
14
-
16
-
8.0
-
-
10
-
11
mA
-
8.0
-
-
10
-
11
VPP= +40V, All output
VNN = -160V switches are
VPP= +100V, turning ON
VNN = -100V and OFF at
VPP= +160V, 50kHz with
no load
V = -40V
mA
VPP = +40V, All output
VNN = -160V switches are
VPP= +100V, turning ON
VNN = -100V and OFF at
VPP= +160V, 50kHz with
no load
V = -40V
RONS
ΔRONS
VOS
IPP
Small signal switch
ON-resistance
Average VPP supply current
ISIG = 5.0mA
VPP = +40V,
ISIG = 200mA VNN = -160V
Ω
ISIG = 5.0mA
VPP = +100V,
ISIG = 200mA VNN = -100V
ISIG = 5.0mA
VPP = +160V,
ISIG = 200mA VNN = -40V
NN
INN
Average VNN supply current
-
13
-
-
14
-
16
-
8.0
-
-
10
-
11
-
8.0
-
-
10
-
11
NN
IDD
VDD supply current
-
0.1
-
-
0.1
-
0.1
mA
VDD = 5.0V@ 50kHz CW
IDDQ
Quiescent VDD supply current
-
10
-
-
10
-
10
μA
All logic inputs are static
CIN
Logic input capacitance
-
10
-
-
10
-
10
pF
---
* See Test Circuits on page 5
Doc.# DSFP-HV2809
NR010913
3
Supertex inc.
www.supertex.com
HV2809
AC Electrical Characteristics (Over recommended operating conditions unless otherwise specified)
Sym
0OC
Parameter
+25OC
+70OC
Min
Max
Min
Typ
Max
Min
Max
Unit
Conditions
tON
Turn ON time
-
30
-
15
30
-
30
tOFF
Turn OFF time
-
30
-
15
30
-
30
-
20
-
-
20
-
20
-
20
-
-
20
-
20
-
20
-
-
20
-
20
-30
-
-30
-33
-
-30
-
-58
-
-58
-
-
-58
-
-60
-
-60
-70
-
-60
-
dB
f = 5.0MHz, 50Ω load
Output switch isolation diode
current
-
300
-
-
300
-
300
mA
300ns pulse width,
2.0% duty cycle
OFF capacitance SW to GND
-
14
-
9.0
14
-
14
OFF capacitance Y to GND
-
28
-
18
28
-
28
pF
VSIG = 0V, f = 1.0MHz,
both SW OFF
ON capacitance SW to GND
-
33
-
23
33
-
33
ON capacitance Y to GND
-
33
-
23
33
-
33
pF
VSIG = 0V, f = 1.0MHz,
one SW ON, one SW OFF
+VSPK
-
250
-
-
250
-
250
-VSPK
-
250
-
-
250
-
250
-
250
-
-
250
-
250
-
250
-
-
250
-
250
+VSPK
-
250
-
-
250
-
250
-VSPK
-
250
-
-
250
-
250
+VSPK
-
250
-
-
250
-
250
-VSPK
-
250
-
-
250
-
250
-
250
-
-
250
-
250
-
250
-
-
250
-
250
+VSPK
-
250
-
-
250
-
250
-VSPK
-
250
-
-
250
-
250
VPP = +160V, VNN = -40V,
RLOAD = 50Ω
-
-
-
1020
-
-
-
VPP = +40V, VNN = -160V
-
-
-
700
-
-
-
-
-
-
370
-
-
-
dv/dt
Maximum VSIG slew rate
KO
OFF isolation
KCR
Switch crosstalk
IID
CSG(OFF)
CSG(ON)
+VSPK
Output voltage spike SW
-VSPK
+VSPK
Output voltage spike Y
-VSPK
QC
Charge injection
μs
VSIG = VPP -10V, VPP = +100V,
RLOAD = 10kΩ, VNN = -100V
VPP = +40V, VNN = -160V
V/ns
VPP = +100V, VNN = -100V
VPP = +160V, VNN = -40V
dB
f = 5.0MHz,1.0kΩ//15pF load
f = 5.0MHz, 50Ω load
VPP = +40V, VNN = -160V,
RLOAD = 50Ω
mV
VPP = +100V, VNN = -100V,
RLOAD = 50Ω
VPP = +160V, VNN = -40V,
RLOAD = 50Ω
VPP = +40V, VNN = -160V,
RLOAD = 50Ω
mV
pC
VPP = +100V, VNN = -100V,
RLOAD = 50Ω
VPP = +100V, VNN = -100V
VPP = +160V, VNN = -40V
* See Test Circuits on page 5
Truth Table
Logic Inputs
Switch Status
EN
A/B
H
H
SW0, 2, 4...30 ON, SW1, 3, 5...31 OFF
H
L
SW0, 2, 4...30 OFF, SW1, 3, 5...31 ON
L
X
All switches OFF
Doc.# DSFP-HV2809
NR010913
4
Supertex inc.
www.supertex.com
HV2809
Test Circuits
VPP -10V
SW0
ISOL
SW1
NC
SW0
VOUT
Y01
Y01
NC
VPP -10V
VPP
VPP
VDD
VNN
VNN
GND
5.0V
VPP
VPP
VDD
VNN
VNN
GND
VIN = 10VP-P
@5.0MHz
SW0
SW1
NC
SW0
VSIG
IID
50Ω
NC
VPP
VNN
VPP
VNN
KO = 20Log
VDD
VPP
5.0V
SW1
VPP
VPP
VDD
VNN
VNN
GND
VIN = 10VP-P
@5.0MHz
NC
NC
Y01
VNN
5.0V
GND
NC
VOUT
SW0
SW1
VPP
VDD
VNN
GND
SW0
NC
+VSPK
Y01
-VSPK
RL
1kΩ
VPP
VPP
VDD
VNN
GND
5.0V
VPP
VPP
VDD
VNN
VNN
GND
VOUT
5.0V
VOUT
VIN
Crosstalk
-VSPK 50Ω
Y01
NC
50Ω
VPP
Isolation Diode Current
+VSPK
5.0V
SW3
KCR = 20Log
ΔVOUT
VNN
SW2
VNN
VIN
1000pF
SW1
Y23
VOUT
SW1
SW0
Y01
50Ω
VDD
NC
TON/TOFF Test Circuit
VNN
VPP
VNN
GND
OFF Isolation
SW0
5.0V
SW1
Y01
DC Offset ON/OFF
Y01
VOUT
SW0
RLOAD
10kΩ
VOUT
NC
RLOAD
100kΩ
Switch OFF Leakage
VOUT
SW1
5.0V
SW1
RL
1kΩ
VOUT
NC
Y01
50Ω
VPP
VPP
VDD
VNN
VNN
GND
5.0V
Q = 1000pF • ∆VOUT
Charge Injection
Doc.# DSFP-HV2809
NR010913
Output Voltage Spike SW
5
Output Voltage Spike Y
Supertex inc.
www.supertex.com
HV2809
Pin Function
Pin
Function
Pin
Function
Pin
Function
Pin
Function
1
Y2829
15
SW3
29
Y1213
43
SW19
2
SW29
16
SW4
30
SW13
44
SW20
3
SW30
17
Y45
31
VNN
45
Y2021
4
Y3031
18
SW5
32
SW14
46
SW21
5
SW31
19
SW6
33
Y1415
47
SW22
6
ENABLE
20
Y67
34
SW15
48
Y2223
7
VDD
21
SW7
35
VPP
49
SW23
8
A/B
22
SW8
36
VPP
50
SW24
9
GND
23
Y89
37
SW16
51
Y2425
10
SW0
24
SW9
38
Y1617
52
SW25
11
Y01
25
SW10
39
SW17
53
SW26
12
SW1
26
Y1011
40
VNN
54
Y2627
13
SW2
27
SW11
41
SW18
55
SW27
14
Y23
28
SW12
42
Y1819
56
SW28
VSUB (Thermal Pad)
Doc.# DSFP-HV2809
NR010913
The central thermal pad on the bottom of package must be connected to VNN externally
6
Supertex inc.
www.supertex.com
HV2809
56-Lead QFN Package Outline (K6)
8.00x8.00mm body, 1.00mm height (max), 0.50mm pitch
D2
D
56
1
56
1
Note 1
(Index Area
D/2 x E/2)
Note 1
(Index Area
D/2 x E/2)
e
E
E2
b
View B
Top View
Bottom View
Note 3
θ
A
A3
L
Seating
Plane
L1
Note 2
Side View
A1
View B
Notes:
1. A Pin 1 identifier must be located in the index area indicated. The Pin 1 identifier can be: a molded mark/identifier; an embedded metal marker; or
a printed indicator.
2. Depending on the method of manufacturing, a maximum of 0.15mm pullback (L1) may be present.
3. The inner tip of the lead may be either rounded or square.
Symbol
Dimension
(mm)
MIN
A
A1
0.80
0.00
NOM
0.90
0.02
MAX
1.00
0.05
A3
0.20
REF
b
D
D2
E
E2
e
0.18
7.85*
2.75
7.85*
2.75
0.25
8.00
5.70
8.00
5.70
0.30
8.15*
6.70†
8.15*
6.70†
0.50
BSC
L
L1
θ
0.30
0.00
0O
0.40
-
-
0.50
0.15
14O
JEDEC Registration MO-220, Variation VLLD-2, Issue K, June 2006.
* This dimension is not specified in the JEDEC drawing.
† This dimension differs from the JEDEC drawing.
Drawings are not to scale.
Supertex Doc.#: DSPD-56QFNK68X8P050, Version A031010.
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline
information go to http://www.supertex.com/packaging.html.)
Supertex inc. does not recommend the use of its products in life support applications, and will not knowingly sell them for use in such applications unless it receives
an adequate “product liability indemnification insurance agreement.” Supertex inc. does not assume responsibility for use of devices described, and limits its liability
to the replacement of the devices determined defective due to workmanship. No responsibility is assumed for possible omissions and inaccuracies. Circuitry and
specifications are subject to change without notice. For the latest product specifications refer to the Supertex inc. (website: http//www.supertex.com)
Supertex inc.
©2013 Supertex inc. All rights reserved. Unauthorized use or reproduction is prohibited.
Doc.# DSFP-HV2809
NR010913
7
1235 Bordeaux Drive, Sunnyvale, CA 94089
Tel: 408-222-8888
www.supertex.com