HV7331 DATA SHEET (07/24/2014) DOWNLOAD

Supertex inc.
HV7331
Four Channel, High Speed ±70V 2.0A
Ultrasound RTZ Pulser
Features
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General Description
HVCMOS technology for high performance
High density integrated ultrasound transmitter
0 to ±70V output voltage
±2.0A source and sink minimum pulse current
Up to 20MHz operation frequency
±2.5ns matched delay times
2.5 to 5.0V CMOS logic interface
Built-in output drain diode and bleed resistors
CW/RTZ Doppler quick switching
Two damping mode options
The Supertex HV7331 is a four-channel, monolithic, high voltage,
high speed pulse generator with built in fast return to zero damping
FETs. This high voltage and high-speed integrated circuit is
designed for portable medical ultrasound imaging devices, and can
also be used for NDT applications.
The HV7331 consists of a controller logic interface circuit, level
translators, MOSFET gate drives, and high current power P-channel
and N-channel MOSFETs as the output stage for each channel.
The peak output currents of each channel are guaranteed to be
over 2.0A with up to a ±70V pulse swing. The integrated regulators
for the gate drivers not only saves two floating voltage supplies, but
also makes the PCB layout easier. The split common source for
the P or N damping MOSFETs provide pulse or CW Doppler mode
quick switch-over for cost and power savings.
Applications
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Portable medical ultrasound imaging
Piezoelectric transducer drivers
NDT ultrasound transmission
Pulse waveform generator
Typical Application Circuit
+5.0V
+2.5 to 3.3V
+5.0 to +70V
VDD
VLL
CPF
VPP
VPP
VPP
LRP
VPF
RGND
HVOUT
VSS
EN
VPF
LR
CW/RTZ
PIN1
VNF
Logic
& Level
Translator
1 of 4-Channels Shown
VNN
VGN
VNN
RGND
RGN
NIN1
RGP
CGP
VGP
AGND
SUB
DGND
VSS
-5.0V
Doc.# DSFP-HV7331
B011513
TX1
VGP
VDD
VNF
LRN
VSUB
CNF
VNN
+VCW
RGP
CGN
VGN
RGND
-VCW
RGN
CW/RTZ
-5.0 to -70V
Supertex inc.
www.supertex.com
HV7331
Pin Configuration
Ordering Information / Availability
Part Number
Package Option
Packing
HV7331K6-G
64-Lead QFN (9.0x9.0)
260/tray
64
1
-G indicates package is RoHS compliant (‘Green’)
Absolute Maximum Ratings
Parameter
Value
64-Lead QFN
0V
AGND, DGND and VSUB
VLL, Positive logic supply
-0.5 to +5.5V
VDD, Positive logic and level translator supply
-0.5 to +5.5V
VSS, Negative level translator supply
+0.5 to -5.5V
(VPP-VNN) Differential high voltage supply
(top view)
Package Marking
HV7331K6
LLLLLLLLL
YYWW
AAA CCC
+160V
VPP, High voltage positive supply
-0.5 to +80V
VNN, High voltage negative supply
+0.5 to -80V
All logic input PINX, NINX, EN and CW voltages
-0.5 to +5.5V
(VPP -TXn) VPP to TXn voltage difference
+160V
(TXn -VNN) TXn to VNN voltage difference
+160V
(RGP - GND) RGP to GND voltage difference
-0.5 to +5.5V
(RGN - GND) RGN to GND voltage difference
+0.5 to -5.5V
Storage temperature
-65 to 150°C
L = Lot Number
YY = Year Sealed
WW = Week Sealed
A = Assembler ID
C = Country of Origin
= “Green” Packaging
Package may or may not include the following marks: Si or
64-Lead QFN
Typical Thermal Resistance
Package
θja
64-Lead QFN
21OC/W
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.
Power-Up Sequence
Power-Down Sequence
Step
Description
Step
Description
1
VLL with logic signal low
1
All logic signals go to low
2
VDD, VSS
2
VPP, VNN
3
VPP, VNN
3
VDD, VSS
4
Logic control signals active
4
VLL
Note:
Powering up/down in any arbitrary sequence will not cause any damage to the device. The powering up/down sequence is only recommended in
order to minimize possible inrush current.
Doc.# DSFP-HV7331
B011513
2
Supertex inc.
www.supertex.com
HV7331
Operating Supply Voltages and Current (Four Active Channels)
(Operating conditions, unless otherwise specified, VLL = +3.3V, VDD = +5V, VSS = -5V, VPP = +70V, VNN = -70V, VSUB = 0V, TA = 25°C)
Sym
Parameter
Min
Typ
Max
Units Conditions
VLL
Logic voltage reference
2.25
3.3
5.25
V
---
VDD
Positive voltage supply
4.85
5.0
5.15
V
---
VSS
Negative voltage supply
-5.15
-5.0
-4.85
V
---
VRGP
Positive voltage supply
1.0
-
5.5
V
VRGN
Negative voltage supply
-5.5
-
-1.0
V
When CW/RTZ = 0 (in B-Mode)
must be 0 ≤ VRGP ≤ +0.5V and
0 ≥ VRGN ≥ -0.5V
VPP
Positive HV supply
VDD
-
+70
V
---
VNN
Negative HV supply
-70
-
VSS
V
---
ILL
VLL, Current EN = 0
-
1.0
3.0
μA
---
IDDQ
VDD, Current EN = 0
-
100
180
μA
---
IDDEN
VDD, Current EN = 1
-
2.5
6.0
mA
ISSQ
VSS Current EN = 0
-
10
20
μA
ISSEN
VSS Current EN = 1
-
2.0
6.0
mA
IDDCW
VDD Current EN = CW = 1
-
45
55
mA
ISSCW
VSS Current EN = CW = 1
-
45
55
mA
IRGPCW
RGP Current EN = CW = 1
-
60
75
mA
IRGNCW
RGP Current EN = CW = 1
-
35
75
mA
IPPQ
VPP Current EN = 0
-
32
50
μA
INNQ
VNN Current EN = 0
-
32
50
μA
IPPEN
VPP Current EN = 1
-
290
-
mA
INNEN
VNN Current EN = 1
-
290
-
mA
IPPEN
VPP Current EN = 1, LR = 1
-
0.25
0.5
mA
INNEN
VSS Current EN = 1, LR = 1
-
0.25
0.5
mA
IPPEN
VPP Current EN = 1, LR = 0
-
32
50
μA
INNEN
VNN Current EN = 1, LR = 0
-
32
50
μA
Min
Typ
Max
f = 0MHz, CW/RTZ = Low
RGN = RGP = 0V
f = 5.0MHz, CW/RTZ = High
RGN/RGP = ±5.0V,
No Load
--f = 5.0MHz, continuous,
no loads
f = 0MHz
Logic Inputs
Sym
Parameter
Units Conditions
VIH
Input logic high voltage
(VLL - 0.4)
-
VLL
V
---
VIL
Input logic low voltage
0
-
0.4
V
---
IIH
Input logic high current
-
-
1.0
μA
---
IIL
Input logic low current
-1.0
-
-
μA
---
CIN
Input logic capacitance
-
-
5.0
pF
---
Doc.# DSFP-HV7331
B011513
3
Supertex inc.
www.supertex.com
HV7331
Electrical Characteristics
(Operating conditions, unless otherwise specified, VLL = +3.3V, VDD = +5.0V, VSS = -5.0V, VPP = +70V, VNN = -70V, VSUB = 0V, TA = 25°C)
.0
Pulser P-Channel MOSFET
Sym
Parameter
Min
Typ
Max
Units Conditions
IOUT
Output saturation current
2.0
3.3
-
A
---
RON
Channel resistance
-
4.0
5.5
Ω
ISD = 100mA
COSS
Output capacitance
-
50
-
pF
VDS = 25V, f = 1.0MHz
Parameter
Min
Typ
Max
IOUT
Output saturation current
2.0
3.3
-
A
---
RON
Channel resistance
-
2.3
3.0
Ω
ISD = 100mA
COSS
Output capacitance
-
50
-
pF
VDS = 25V, f = 1.0MHz
Pulser N-Channel MOSFET
Sym
Units Conditions
MOSFET Drain Bleed Resistor
Sym
Parameter
Min
Typ
Max
RP/N1~4
Output bleed resistance
120
-
190
kΩ
---
-
-
40
mW
---
Parameter
Min
Typ
Max
IOUT
Output saturation current
2.0
3.3
-
A
VRGP = VRGN = 0V
RON
Channel resistance
-
3.7
4.8
Ω
ISD = 100mA
COSS
Output capacitance
-
50
-
pF
VDS = 25V, f = 1.0MHz
Parameter
Min
Typ
Max
IOUT
Output saturation current
2.0
3.3
-
A
VRGP = VRGN = 0V
RON
Channel resistance
-
2.7
3.5
Ω
ISD = 100mA
COSS
Output capacitance
-
50
-
pF
VDS = 25V, f = 1.0MHz
Min
Typ
Max
PRO
Bleed resistors power limit
Units Conditions
Damping P-Channel MOSFET
Sym
Units Conditions
Damping N-Channel MOSFET
Sym
Units Conditions
CW Mode P- & N-Channel MOSFET
Sym
Parameter
Units Conditions
RONCW-P
CW Mode ON-resistance
-
14
-
Ω
RONCW-N
CW Mode ON-resistance
-
14
-
Ω
ΔRONCW
P- & N-Ch RONCW matching
-
±2.0
-
Ω
ISD = 100mA,
VRGP = +5.0V, VRGN = -5.0V
AC Electrical Characteristics
(Operating conditions, unless otherwise specified, VLL = +3.3V, VADD = VDD = +5.0V, VSS = -5.0V ,VPP = +70V, VNN = -70V, TA = 25°C)
Sym
Parameter
Min
Typ
Max
Units Conditions
tr1
Pulser output rise time
-
15
18
ns
tf1
Pulser output fall time
-
15
18
ns
tr2
Damping output rise time
-
15
18
ns
tf2
Damping output fall time
-
15
18
ns
tr3
CWD output rise time
-
17
22
ns
tf3
CWD output fall time
-
17
22
ns
Doc.# DSFP-HV7331
B011513
4
330pF//2.5kΩ load
330pF//2.5kΩ load,
RGP/RGN = ±5.0V
Supertex inc.
www.supertex.com
HV7331
AC Electrical Characteristics (cont.)
(Operating conditions, unless otherwise specified, VLL = +3.3V, VADD = VDD = +5.0V, VSS = -5.0V ,VPP = +70V, VNN = -70V, TA = 25°C)
Sym
Parameter
Min
Typ
Max
Units Conditions
fOUT
Output frequency range
-
-
20
MHz
HD2
Second harmonic distortion
-
-40
-
dB
tEN_ON
Delay on mode change
-
200
300
μs
tEN_OFF
Chip disable time
-
2.0
4.0
μs
tLR_ON
Linear regulators enable time
-
200
300
μs
tLR_OFF
Linear regulators disable time
-
2.0
4.0
μs
100Ω load
CPF,
CNF capacitor 0.47μF per pin,
50% to 90%
tdrp1
Pulser delay time on P-rise
8.0
-
13
ns
tdfp1
Pulser delay time on P-fall
5.0
-
10
ns
tdrn1
Pulser delay time on N-rise
8.0
-
13
ns
tdfn1
Pulser delay time on N-fall
5.0
-
10
ns
tdrp2
CWD delay time on P-rise
6.0
-
12
ns
tdfp2
CWD delay time on P-fall
6.0
-
12
ns
tdrn2
CWD delay time on N-rise
6.0
-
12
ns
tdfn2
CWD delay time on N-fall
6.0
-
12
ns
Delay time matching
-
±2.5
-
ns
P to N, channel to channel
Delay jitter on rise or fall
-
13
-
ps
VRGP/VRGN = ±5.0V, input tr 50% to
HVOUT tr or tf 50%, with 50Ω load
ΔtDELAY
tJCW
CW/RTZ = 0
R1 = R2 = 1.0Ω to GND
CW/RTZ = 1
R1 = R2 = 1.0Ω to GND
Logic Control Table (each channel)
Inputs
Operation
Mode
B-Mode
with RTZ
CW-Mode
Disable
EN
1
1
0
Output MOSFETs
CW/RTZ
PIN
NIN
VPP
to
TX
VNN
to
TX
TX
to
RGP
TX
to
RGN
0
0
0
OFF
OFF
ON
ON
0
1
0
ON
OFF
OFF
OFF
0
0
1
OFF
ON
OFF
OFF
0
1
1
OFF
OFF
OFF
OFF
1
0
0
OFF
OFF
OFF
OFF
1
1
0
OFF
OFF
ON
OFF
1
0
1
OFF
OFF
OFF
ON
1
1
1
OFF
OFF
OFF
OFF
X
X
X
OFF
OFF
OFF
OFF
Note:
When CW/RTZ = 0 (in B-Mode) must be 0 ≤ VRGP ≤ +0.5V and 0 ≥ VRGN ≥ -0.5V
When CW/RTZ = 1 (in CW-Mode) must be 0 ≤ VRGP ≤ +5.5V and 0 ≥ VRGN ≥ -5.5V
Doc.# DSFP-HV7331
B011513
5
Supertex inc.
www.supertex.com
HV7331
Switch Timing and Delay Test
CW/RTZ = 0
CW/RTZ = 0
NINn
NINn
PINn
PINn
tr1
tf2
90%
TXn
tf3
tr3
tr2
tf1
10%
TXn
90%
10%
10%
90%
CW/RTZ = 0
PINn
CW/RTZ = 0
NINn
50%
tdfp1
tdrp1
CW/RTZ = 1
PINn
50%
tdfn1
tdrn1
tdfp2
tdrp2
IOUT
50%
tdfn2
tdrn2
IOUT
50%
TXn
CW/RTZ = 1
NINn
50%
TXn
0A
0A
TXn
* Note: CW/RTZ = 0, RGP = RGN = 0V
0A
50%
TXn
0A
* Note: CW/RTZ = 1, RGP = +5.0V, RGN = -5.0V
n = 1, 2, 3, 4
50%
IOUT
IOUT
+2.5 to 3.3V
+5.0 to +70V
+5.0V
CPF
VDD
VLL
VPP
VPP
LRP
VPP
RGND
VSS
VPF
EN
VPF
LR
CW/RTZ
PIN1
VNF
1 of 4-Channels Shown
TX1
R1
Logic
& Level
Translator
VNN
RGND
VGN
VNN
RGN
NIN1
CGP
RGP
VGP
AGND
SUB
DGND
VSS
VSUB
CGN
VDD
VGP
LRN
VNF
VNN
CNF
0 to +5.0V
RGP
VGN
RGN
RGND
0 to -5.0V
-5.0V
Doc.# DSFP-HV7331
B011513
-5.0 to -70V
6
Supertex inc.
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HV7331
Pin Description
Pin
Name
1
EN
2
CW/RTZ
3
NIN1
Input logic control signal for channel 1
4
PIN1
Input logic control signal for channel 1
5
NIN2
Input logic control signal for channel 2
6
PIN2
Input logic control signal for channel 2
7
AGND
8
NIN3
Input logic control signal for channel 3
9
PIN3
Input logic control signal for channel 3
10
NIN4
Input logic control signal for channel 4
11
PIN4
Input logic control signal for channel 4
12
VDD
Positive voltage power supply (+5.0V)
13
LR
14
VDD
15
VDD
16
VLL
17
AGND
18
VDD
19
DGND
20
VSS
Negative voltage power supply (-5.0V)
21
CPF
VPP to VPF decoupling capacitor (low voltage, 0.22 to 0.47μF 10V) See Note 1
22
VPP
23
VPP
24
CGP
CGP to RGP decoupling capacitor (low voltage, 0.47μF 10V)
25
RGP
26
RGP
Common return ground or positive CW power supply. When CW/RTZ = 0 (in B-Mode) must
be 0 ≤ VRGP ≤ +0.5V. When CW/RTZ = 1 (in CW-Mode) must be 0 ≤ VRGP ≤ +5.5V.
27
CGN
CGN to RGN decoupling capacitor (low voltage, 0.47μF 10V)
28
RGN
29
RGN
Common return ground or positive CW power supply. When CW/RTZ = 0 (in B-Mode) must
be 0 ≥ VRGN ≥ -0.5V. When CW/RTZ = 1 (in CW-Mode) must be 0 ≥ VRGN ≥ -5.5V.
30
CNF
VNF to VNN decoupling capacitor (low voltage, 0.22 to 0.47μF 10V) See Note 1
31
VNN
32
VNN
33
TX4
34
TX4
Doc.# DSFP-HV7331
B011513
Description
Chip power enable Hi = ON, Low = OFF
B-Scan or CWD mode control pin, see Control Logic Table
Digital logic circuit ground (0V)
Built-in linear regulators power turned on (enabled) when LR = 1 and EN = 1
Built-in linear regulators power turned off (disabled) when EN = 0 or LR = 0
Positive voltage power supply (+5.0V)
Logic “1” voltage reference input (+2.5 to +5V)
Digital logic circuit ground (0V)
Positive voltage power supply (+5.0V)
Driver and level translator circuit ground return (0V)
Positive high voltage power supply (+5.0 to +70V)
Negative high voltage power supply (-5.0 to -70V)
Transmit pulser output for channel 4
7
Supertex inc.
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HV7331
Pin Description (cont.)
Pin
Name
35
RGND
36
RGND
37
TX3
38
TX3
39
RGND
40
RGND
41
RGND
42
RGND
43
TX2
44
TX2
45
RGND
46
RGND
47
TX1
48
TX1
49
VNN
50
VNN
51
CNF
52
RGN
53
RGN
54
CGN
55
RGP
56
RGP
57
CGP
58
VPP
59
VPP
60
CPF
CGP to RGP decoupling capacitor (low voltage, 0.22 to 0.47μF 10V) See Note 1
61
VSS
Negative voltage power supply (-5.0V)
62
DGND
63
VDD
64
AGND
(Thermal Pad) VSUB
Description
Bleeding resistor common return ground
Transmit pulser output for channel 3
Bleeding resistor common return ground
Transmit pulser output for channel 2
Bleeding resistor common return ground
Transmit pulser output for channel 1
Negative high voltage power supply (-5.0 to -70V)
VNF to VNN decoupling capacitor (low voltage, 0.22 to 0.47μF 10V) See Note 1
Common return ground or negative CW power supply. (0V or -1.0 to -5.5V)
CGN to RGN decoupling capacitor (low voltage, 2.2μF 10V)
Common return ground or positive CW power supply.(0V or +1.0 to +5.5V)
CGP to RGP decoupling capacitor (low voltage, 2.2μF 10V)
Positive high voltage power supply (+5 to +70V)
Driver and level translator circuit ground return (0V)
Positive voltage power supply (+5.0V)
Digital logic circuit ground (0V)
Substrate connect to ground (0V)
Note 1:
To minimize the rush-in current, nominal capacitor values for the CPF to VPP pins and the CNF to VNN pins should not exceed 0.47μF.
Doc.# DSFP-HV7331
B011513
8
Supertex inc.
www.supertex.com
HV7331
64-Lead QFN Package Outline (K6)
9.00x9.00mm body, 1.00mm height (max), 0.50mm pitch
D2
D
64
1
64
1
Note 1
(Index Area
D/2 x E/2)
Note 1
(Index Area
D/2 x E/2)
e
E
E2
b
Top View
Bottom View
View B
Note 3
θ
A
A3
Seating
Plane
Side View
A1
L
Note 2
L1
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)
A
A1
MIN
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
8.85*
6.00
8.85*
6.00
0.25
9.00
7.70*
9.00
7.70*
0.30
9.15*
7.80†
9.15*
7.80†
0.50
BSC
L
L1
θ
0.30
0.00
0O
0.40
-
-
0.50
0.15
14O
JEDEC Registration MO-220, Variation VMMD-4, 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-64QFNK69X9P050, Version B020112
(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-HV7331
B011513
9
1235 Bordeaux Drive, Sunnyvale, CA 94089
Tel: 408-222-8888
www.supertex.com