ICHAUS IC

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iC-LFL1402
256x1 LINEAR IMAGE SENSOR
Rev A3, Page 1/8
FEATURES
APPLICATIONS
♦ 256 active photo pixels of 56 µm at a gap and distortion free
pitch of 63.5 µm (400 DPI)
♦ Integrating L-V conversion followed by a sample & hold circuit
♦ High sensitivity and uniformity over wavelength
♦ High clockrates of up to 5 MHz
♦ Only 256 clocks required for readout
♦ Shutter function enables flexible integration times
♦ Glitch-free analogue output
♦ Push-pull output amplifier
♦ 5 V single supply operation
♦ Can run off external bias to reduce power consumption
♦ Function equivalent to TSL1402 (serial mode)
♦ Optical line sensors
♦ CCD substitute
PACKAGES
OBGA™ LFL1C
BLOCK DIAGRAM
VCC
VDD
TP
CONTROL AND SHIFT REGISTER
Sample and Hold
Control
CLK
NS
D
NS
Q
C
SI
Bit 1
NRCI
Q
C
D
NQ
NQ
Bit 2
C
Q
D
NQ
NR
Bit 3
RPIX(1:256)
SNH
C
Q
C
D
NQ
NR
Q
D
NQ
NR
Bit 255
Bit 256
SNH256
ACTIVE PIXELS
DIS
Pixel 1
Pixel 2
Pixel 256
PIXEI
PIXOI
RSET
ONE
VHE
REF
LFL1402
PIXEL
MULTIPLEXER
BIAS
AGND
Copyright © 2006 iC-Haus
AO
VHO
OUTPUT
AMPLIFIER
GND
http://www.ichaus.com
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iC-LFL1402
256x1 LINEAR IMAGE SENSOR
Rev A3, Page 2/8
DESCRIPTION
iC-LFL1402 is an integrating light-to-voltage converter with a single line of 256 pixels pitched at
63.5 µm (center-to-center distance). Due to the
monolithical integration there is no pixel-gap or pitch
distortion whatsoever. Each pixel consists of a
56.4 µm x 200 µm photodiode, an integration capacitor and a sample and hold circuit.
The integrated control logic makes operation very
simple, with only a start and clock signal necessary.
A third control input enables the integration period
to be prematurely terminated at any time (electronic
shutter).
When the start signal is given the hold mode is activated for all pixels simultaneously with the next rising
clock edge; starting with pixel 1 the hold voltages are
switched in sequence to the push-pull output amplifier. The second clock pulse deletes all integration
capacitors and the integration period starts again in
the background during the output phase. A run is
complete after 256 clock pulses.
iC-LFL1402 is suitable for high clock rates of up to
5 MHz. If this is not required the supply current can
be reduced via the external bias setting.
PACKAGES OBGA™ LFL1C
PIN CONFIGURATION OBGA™ LFL1C
(top view)
PIN FUNCTIONS
No. Name Function
1
2
3
4
5
SI
CLK
AO
VCC
RSET
Start Integration Input
Clock Input
Analogue Output
+5 V Supply Voltage
Bias Current (resistor from VCC to
RSET; when connected to GND the internal bias setting is activated)
6 AGND Analogue Ground
7 GND Digital Ground
8 DIS
Disable Integration Input
CHIP-LAYOUT
iC-LFL1402
Chip size: 16.6 mm x 1.7 mm
DIS
Pitch 63.5 um
PIXEL 1
SI
AGND
GND
CLK
Active Area 56.4 um x 200 um
TP RSET
PIXEL 256
AO
VDD VCC
iC-LFL1402
256x1 LINEAR IMAGE SENSOR
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Rev A3, Page 3/8
ABSOLUTE MAXIMUM RATINGS
Beyond these values damage may occur; device operation is not guaranteed.
Item
No.
Symbol
Parameter
Conditions
Fig.
Unit
Min.
Max.
G001 VDD
Digital Supply Voltage
-0.3
6
V
G002 VCC
Analogue Supply Voltage
-0.3
6
V
G003 V()
Voltage at SI, CLK, DIS, RSET, TP, AO
-0.3
VCC +
0.3
V
G004 I()
Current in RSET, TP, AO
-10
10
mA
G005 Vd()
ESD Susceptibility at all pins
2
kV
G006 Tj
Operating Junction Temperature
125
°C
G007 Ts
Storage Temperature Range
MIL-STD-883, Method 3015,
HBM 100 pF/1.5 kΩ
-40
see package specification
OBGA™ LFL1C
THERMAL DATA
Operating Conditions: VCC = VDD = 5 V ±10%
Item
No.
T01
Symbol
Parameter
Conditions
Fig.
Unit
Min.
Ta
Operating Ambient Temperature Range see package specification
OBGA™ LFL1C
All voltages are referenced to ground unless otherwise stated.
All currents into the device pins are positive; all currents out of the device pins are negative.
Typ.
Max.
iC-LFL1402
256x1 LINEAR IMAGE SENSOR
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Rev A3, Page 4/8
ELECTRICAL CHARACTERISTICS
Operating Conditions: VCC = VDD = 5 V ±10%, RSET = GND, Tj = -25...85 °C unless otherwise noted
Item
No.
Symbol
Parameter
Conditions
Tj
°C
Fig.
Unit
Min.
Typ.
Max.
Total Device
001
VDD
Digital Supply Voltage Range
4.5
5.5
002
003
VCC
Analogue Supply Voltage Range
4.5
5.5
I(VDD)
Supply Current in VDD
004
I(VCC)
Supply Current in VCC
005
Vc()hi
Clamp Voltage hi at SI, CLK, DIS, Vc()hi = V() − V(VCC);
TP, RSET
I() = 1 mA
0.3
1.8
V
006
Vc()lo
Clamp Voltage lo at SI, CLK, DIS, Vc()hi = V() − V(AGND);
TP, RSET
I() = -1 mA
-1.5
0.3
V
007
Vc()hi
Clamp Voltage hi at AO
Vc()hi = V(AO) − V(VCC);
I(AO) = 1 mA
0.3
1.5
V
008
Vc()lo
Clamp Voltage lo at AO, VCC,
VDD, GND
Vc()lo = V() − V(AGND);
I() = -1 mA
-1.5
-0.3
V
f(CLK) = 1 MHz
f(CLK) = 5 MHz
0.39
1.85
V
V
mA
mA
11.5
mA
Photodiode Array
201
A()
Radiant Sensitive Area
200 µm x 56.40 µm per Pixel
202
S(λ )max
Spectral Sensitivity
λ = 680 nm
1
0.01128
203
λar
Spectral Application Range
S(λar ) = 0.25 x S(λ )max
1
mm²
0.5
400
A/W
980
nm
0.5
V
Analogue Output AO
301
Vs()lo
Saturation Voltage lo
I() = 1 mA
302
Vs()hi
Saturation Voltage hi
Vs()hi = VCC - V(), I() = -1 mA
303
K
Sensitivity
λ = 680 nm,
package OBGA™ LFL1C
2.88
304
V0()
Offset Voltage
integration time 1 ms,
no illumination
400
305
∆V0()
Offset Voltage Deviation during
integration mode
∆V0() = V(AO)t1 − V(AO)t2,
∆t = t2 − t1 = 1 ms
306
∆V()
Signal Deviation during hold
mode
∆V0() = V(AO)t1 − V(AO)t2,
∆t = t2 − t1 = 1 ms
307
tp(CLKAO)
Settling Time
Cl(AO) = 10 pF, CLK lo → hi until
V(AO) = 0.98 x V(VCC)
1
V
V/pWs
800
mV
-250
50
mV
-150
150
mV
200
ns
4.4
V
Power-On-Reset
801
VCCon
Power-On Release by VCC
802
VCCoff
Power-Down Reset by VCC
803
VCChys
Hysteresis
1
VCChys = VCCon − VCCoff
0.4
V
1
2
V
100
µA
3.5
V
V
Bias Current Adjust RSET
901
Ibias()
Permissible External Bias Current
902
Vref
Reference Voltage
20
I(RSET) = Ibias
2.5
3
Input Interface SI, CLK, DIS
B01
Vt()hi
Threshold Voltage hi
1.4
1.8
B02
Vt()lo
Threshold Voltage lo
0.9
1.2
V
B03
Vt()hys
Hysteresis
300
800
mV
B04
I()
Pull-Down Current
B05
fclk
Permissible Clock Frequency
Vt()hys = Vt()hi − Vt()lo
10
30
50
µA
5
MHz
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iC-LFL1402
256x1 LINEAR IMAGE SENSOR
Rev A3, Page 5/8
OPTICAL CHARACTERISTICS: Diagrams
100
%
90
80
70
60
50
40
30
20
10
400
600
800
1000 nm
Figure 1: Relative spectral sensitivity
OPERATING REQUIREMENTS: Logic
Operating Conditions: VCC = VDD = 5 V ±10%, Tj = -25...85 °C
input levels lo = 0...0.45 V, hi = 2.4 V...VCC, see Fig. 2 for reference levels
Item
No.
Symbol
Parameter
Conditions
Fig.
Unit
Min.
Max.
I001 tset
Setup Time:
SI stable before CLK lo → hi
3
50
ns
I002 thold
Hold Time:
SI stable after CLK lo → hi
3
50
ns
thold
CLK
V
Input/Output
2.4V
2.0V
SI
0.8V
0.45V
t
1
0
Figure 2: Reference levels
tset
Figure 3: Timing diagram
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iC-LFL1402
256x1 LINEAR IMAGE SENSOR
Rev A3, Page 6/8
DESCRIPTION OF FUNCTIONS
Normal operation
Following an internal power-on reset the integration
and hold capacitors are discharged and the sample
and hold circuit is set to sample mode. A high signal
at SI and a rising edge at CLK triggers a readout cycle
and with it a new integration cycle.
In this process the hold capacitors of pixels 1 to 255
are switched to hold mode immediately (SNH = 1),
254
255
256
1
2
3
Pix254
Pix255
Pix256
Pix1
Pix2
Pix3
with pixel 256 (SNH256 = 1) following suit one clock
pulse later. This special procedure allows all pixels to
be read out with just 256 clock pulses. The integration
capacitors are discharged by a one clock long reset
signal (NRCI = 0) which occurs between the 2nd and
3rd falling edge of the readout clock pulse (cf. Figure
4). After the 255 pixels have been read out these are
again set to sample mode (SNH = 0), likewise for pixel
256 one clock pulse later (SNH256 = 0).
...
4
255
256
Pix255
Pix256
1
2
CLK
SI
V(AO)
...
Pix1
SNH
SNH256
NRCI
Integration Time Pixel 1−255
Integration Time Pixel 256
Figure 4: Readout cycle and integration sequence
If prior to the 256th clock pulse a high signal occurs
at SI the present readout is halted and immediately
reinitiated with pixel 1. In this instance the hold ca254
255
256
1
2
3
Pix255
Pix256
Pix1
Pix2
Pix3
4
pacitors retain their old value i.e. hold mode prevails
(SNH/SNH256 = 0).
1
5
2
3
4
...
256
1
2
CLK
SI
V(AO)
Pix254
Pix4
Pix5
Pix1
Pix2
Pix3
Pix4
...
Pix256
Pix1
SNH
SNH256
NRCI
Figure 5: Restarting a readout cycle
With more than 256 clock pulses until the next SI signal, pixel 1 is output without entering hold mode; the
output voltage tracks the voltage of the pixel 1 integration capacitor.
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iC-LFL1402
256x1 LINEAR IMAGE SENSOR
Rev A3, Page 7/8
254
255
256
Pix254
Pix255
Pix256
1
2
3
Pix1
Pix2
Pix3
4
...
255
256
257
258
259
CLK
SI
V(AO)
Pix255
...
Pix256
Pix1
SNH
SNH256
NRCI
Integration Time
Figure 6: Clock pulse continued without giving a new integration start signal
Operation with the shutter function
Integration can be stopped at any time via pin DIS,
i.e. the photodiodes are disconnected from their corresponding integration capacitor when DIS is high and
1
2
3
4
the current integration capacitor voltages are maintained. If this pin is open or switched to GND the pixel
photocurrents are summed up by the integration capacitors until the next successive SI signal follows.
5
6
...
255
256
1
CLK
SI
SNH
NRCI
DIS
PIX SAMPLE−C
Integration
Disabled
Integration
Enabled
Integration
Disabled
Figure 7: Defining the integration time via shutter input DIS
External bias current setting
In order to reduce the power consumption of the device
an external reference current can be supplied to pin
RSET which reduces the maximum readout frequency,
however. To this end a resistor must be connected
from VCC to RSET. If this pin is not used, it should
be connected to GND.
This specification is for a newly developed product. iC-Haus therefore reserves the right to change or update, without notice, any information contained herein,
design and specification; and to discontinue or limit production or distribution of any product versions. Please contact iC-Haus to ascertain the current data.
Copying – even as an excerpt – is only permitted with iC-Haus approval in writing and precise reference to source.
iC-Haus does not warrant the accuracy, completeness or timeliness of the specification on this site and does not assume liability for any errors or omissions
in the materials. The data specified is intended solely for the purpose of product description. No representations or warranties, either express or implied, of
merchantability, fitness for a particular purpose or of any other nature are made hereunder with respect to information/specification or the products to which
information refers and no guarantee with respect to compliance to the intended use is given. In particular, this also applies to the stated possible applications or
areas of applications of the product.
iC-Haus conveys no patent, copyright, mask work right or other trade mark right to this product. iC-Haus assumes no liability for any patent and/or other trade
mark rights of a third party resulting from processing or handling of the product and/or any other use of the product.
iC-LFL1402
256x1 LINEAR IMAGE SENSOR
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Rev A3, Page 8/8
ORDERING INFORMATION
Type
Package
Order Designation
iC-LFL1402
OBGA™ LFL1C
-
iC-LFL OBGA LFL1C
iC-LFL Chip
For information about prices, terms of delivery, other packaging options etc. please contact:
iC-Haus GmbH
Am Kuemmerling 18
D-55294 Bodenheim
GERMANY
Tel.: +49 (61 35) 92 92-0
Fax: +49 (61 35) 92 92-192
Web: http://www.ichaus.com
E-Mail: [email protected]