SUTEX HV895 Liquid lens driver Datasheet

HV895
Liquid Lens Driver
Features
General Description
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The HV895 is designed to drive liquid lenses of up to 200pF with
a 1.5kHz waveform at amplitudes up to 60VRMS, controlled via an
I2C interface.
Drives capacitive loads up to 200pF
Programmable drive amplitude (up to 60VRMS)
On-chip boost converter
No external inductor
I2C interface
Low operating current (≤20mA)
Low standby current (≤1.0µA)
Controlled drive edge reduces EMI
1.0mm × 6.0mm flip-chip
A single byte (AMP) written to the HV895 controls the operation of
the driver. Setting AMP = 01h to FFh controls output amplitude in
255 monotonic steps. Setting AMP = 00h causes the HV895 to go
into low power standby mode, consuming less than 1.0µA. When
active, the HV895 draws less than 20mA.
A charge pump boost converter integrated on-chip provides the
high voltage necessary for driving the lens. No external inductors
or diodes are needed. Two ceramic 0402 size capacitors are the
only external components required for a complete lens driver
circuit. The narrow die size and only 2 small external components
allow an entire lens driver circuit to be incorporated inside a
camera module.
Applications
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Cell phone and PDA cameras
Bar code readers
Web and laptop cameras
Biometric scanners
Ultracompact cameras
An H-bridge output stage provides AC drive to the lens, allowing
the use of a single high voltage boost converter while providing
alternating polarity to the lens. Controlled rising and falling edges
on the drive waveform reduces EMI.
The HV895 is offered in a 1.0mm × 6.0mm lead-free solderbumped flip-chip.
Typical Application Circuit
I2C bus
VDD
1.7 -2.95V
VD D
OUT1
SDA
SCL
VIN
2.65 - 5.5V
CIN
2.2μF
6.3V
VIN1
VIN2
CHV
4.7nF
100V
Liquid Lens
100 -200pF
HV895
OUT2
HV
GND1 GND2
HV895
Ball Configuration
Ordering Information
DUM1
Device
Die Option
HV895BD
Lead-free
solder-bumped die
DUM2
VIN1
GND1
This product is RoHS compliant (‘Green’)
VDD
VIN2
SDA
GND2
SCL
HV
OUT2
Absolute Maximum Ratings
Solder-bumped Die
Parameter
(bottom view)
Value
VIN, VDD
-0.5V to 6.5V
SDA, SCL
-0.5V to 6.5V
Product Marking
-40°C to +85°C
H
V
8
9
5
B
D
-65°C to +150°C
L
L
L
L
L
L
L
Operating temperature
Storage temperature
OUT1
Device may not meet specifications, but will incur no damage.
L
Y
W
L
L
Y = Year
W = Week
L = Lot Number
Orientation
mark
Solder-bumped Die
(top view)
Recommended Operating Conditions
Sym
Parameter
Min
Typ
Max
Units
VIN
Supply voltage
2.65
-
5.5
V
---
VDD
I2C logic level reference
1.70
-
2.95
V
---
-
-
2.0
ms
---
-
2.2
-
μF
---
(1)
Conditions
tVIN
Time for VIN to ramp to 90%
CIN
Supply bypass capacitor
CHV
High voltage storage capacitor
24
-
-
x CLOAD
Load (lens) capacitance
100
150
200
pF
---
-
-
400
kHz
---
-25
-
+85
CLOAD
2
fSCL
I C clock
TA
Ambient temperature
O
C
100V rating
---
Notes:
1. To assure the driver powers up in standby state. No damage will occur if ramped up slower.
Electrical Specifications (Over recommended operating conditions @ 25 C unless otherwise specified)
O
Sym
Parameter
Min
Typ
Max
Units
Conditions
IIN
VIN supply current
-
8.0
500
20
nA
mA
AMP = 00h, SDA = VDD, SCL = VDD
AMP = FFh, SDA = VDD, SCL = VDD
IDD
VDD supply current
-
9.0
500
12
nA
μA
AMP = 00h, SDA = VDD, SCL = VDD
AMP = FFh, SDA = VDD, SCL = VDD
HV
Output voltage of internal boost
converter
71
75
79
V
CLOAD = 0pF
2
HV895
Electrical Specifications (cont.)(Over recommended operating conditions @ 25 C unless otherwise specified)
O
Sym
Parameter
Min
Typ
Max
Units
Conditions
VOUT(AC)
AC output voltage
9.0
55.0
0
9.6
59.7
10.0
62.7
VRMS
AMP = 00h
AMP = 01h
AMP = FFh
VOUT(DC)
DC output offset voltage
-2.0
0
+2.0
V
---
DNL
Differential non-linearity (guaranteed monotonic)
-0.5
-
+0.5
LSB
---
fOUT
Output frequency
1.0
1.5
2.0
kHz
---
DX
Transition time (fraction of period)
-
4.7
-
%
---
Output slope
-
4.7
-
V/μs
-
-
20
ms
AMP = 00h → FFh, CHV = 4.7nF
Over any 1-step AMP increment or
decrement (except 00h)
dV/dt
1
CLOAD = 150pF, VIN = 3.8V
tSU
Startup time to 90% amplitude
tA
Amplitude response time1
-
-
5.0
ms
VIL
Logic low input voltage
-
-
0.30
x VDD
---
VIH
Logic high input voltage
0.7
-
-
x VDD
---
VOL
Logic low output voltage
-
-
0.2
x VDD
ILOAD = 3.0mA
IL
Logic low input current
-
-
10
μA
VDD = 1.70 - 2.95V
IH
Logic high input current
-
-
10
μA
VDD = 1.70 - 2.95V
CLI
Logic input capacitance
-
-
10
pF
VDD = 1.70 - 2.95V, grounded or open
Notes:
1. Measured from the rising edge of the I2C acknowledge bit that terminates transmission of the AMP data byte.
Block Diagram and Typical Application
CHV
4.7nF
100V
HV
VIN2
VANA
2.65 – 5.50V
VDIG
1.70 – 2.95V
VIN1
CIN
2.2µF
6.3V
DC/DC
GND1
DAC
OUT1
VDD
Host
Controller
HV895
8
SDA
I2C bus
SCL
Control
H-bridge
driver
amp
CLENS
100 – 200pF
enable
OUT2
Osc
GND2
3
HV895
Output Waveform
DX
AMP=FFh
dV/dt
VOUT
(all edges)
AMP<FFh
DX
1 / fOUT
Applications Information
I2C
The HV895 is a write-only fast mode I2C device. Logic voltages are referenced to VDD.
Address
The HV895 recognizes a 7-bit address. The device is pre-programmed with an I2C address of 0100011b. For other addresses, please contact the factory.
Data
A single byte written to the HV895 controls the operation of the lens driver. See the Command Table below. The MSB is
clocked-in first.
Command Table
AMP
Description
Low power standby mode. When in standby mode, the internal boost converter and H-bridge oscillator are
shut down, and the OUT pins are held at ground.
00h
Any AMP value other than 00h brings the HV895 out of standby mode. The time it takes the HV895 to exit
standby mode and achieve full output amplitude is less than 20ms with a 4.7nF capacitor on the HV pin.
Faster startup times may be achieved by lowering CHV at the expense of possible waveform distortion.
Controls output amplitude according to:
01h-FFh
VOUT(RMS) = 9.4VRMS + (AMP • 197mVRMS)
where AMP is an integer from 1 to 255
Supplies
VIN must be ramped up in less than 2.0ms to assure the driver starts-up in standby mode. If brought up slower, the driver
may not start-up in standby mode, with output amplitude at an indeterminate level. In this case, writing AMP = 00h brings
the driver to standby mode. No damage will occur if ramped slower than 2.0ms.
4
HV895
Die Dimensions
+0
1000–75
500 ±25
DUM2
DUM1
VIN1
GND1
VDD
+0
6000 –196
VIN2
SDA
GND2
SCL
Y
HV
124–137
X
OUT2
Note:
All dimensions in µm
OUT1
0
442.8
143.3
0
Orientation mark
this end, top side
100 ±25
Side View
Bottom View
Bump Coordinates and Descriptions (XY coordinates reference center of bump and are in µm. Tolerance is ±15µm.)
Bump
X
Y
VIN1
353.4
5201.7
VIN2
675.4
2424.6
VIN1 supplies the DC-DC converter. VIN2 supplies the rest of the IC. They must be tied together. To
minimize conducted EMI, bypass with a 2.2µF ceramic capacitor to ground close to the IC.
VDD
12.7
2891.0
Externally supplied reference voltage for the I2C logic levels. Connect to the I2C bus supply.
GND1
353.4
4397.6
GND2
-14.8
1844.0
GND1 is the ground for the for the DC-DC converter, while GND2 is for the rest of the IC. Connect both
to system ground.
SCL
12.7
1594.0
Serial clock for the I2C interface. The HV895 is a Fast Mode device (fSCL ≤ 400kHz).
SDA
12.7
2171.2
Serial data for the I2C interface. The HV895 is a write-only device, with a single 8-bit command byte
(AMP, see page 4).
HV
722.4
1006.6
High voltage DC output of the internal boost converter. Connect a 4.7nF, 100V ceramic capacitor to
ground close to the IC.
OUT1
666.3
0.0
OUT2
0
0
DUM1
3.9
5334.2
DUM2
702.9
5334.2
Description
Outputs of the H-bridge driver. The liquid lens connects between these two bumps. When disabled
(AMP = 00h), both of these outputs are held at ground.
These bumps are for mechanical support only. Provide pads on the PCB for these solder bumps. No
electrical connections should be made to these bumps.
Doc.# DSFP-HV895
NR031408
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