™ Peripheral Imaging Corporation PI250MC-A6 CIS Module 200DPI CIS Sensor Engineering Data Sheet Key Features • Low power-Single Power Supply at 5.0Volts • Light source, lens, and sensor are integrated into a single module • 8 dpm resolution, 104 mm scanning length • High Speed Page Scan - up to 167 µsec/line @ 5MHz pixel rate with internal optical modification (optional feature). • Wide dynamic range • Analog output • Yellow-green LED light source • Compact size ≅ 14 mm x 19 mm x 120 mm • Light weight General Description The PI250MC-A6 is a contact imaging sensor, CIS, module. It is a successor module to its predecessor, PI223MC-A6, hence it possesses all superb qualities of its predecessor, except, it has one outstanding feature, it can operate from a single 5 volts supply. Like its predecessor it composed of 13 PI3020 sensor chips. The PI3020 is a 200 DPI solid-state line imaging array, also a product of Peripheral Imaging Corporation. This imaging device is fabricated using MOS imaging sensor technology for its high-speed performance and high sensitivity. Like its predecessor, the PI250MC-A6 is suitable for scanning A6 size (104 mm) documents with 8 dots per millimeter resolution. Applications include ticket, check and card scanners, variety of mark readers, and other automation equipment. PAGE 1 OF 7 - PI250MC-A6, 12-9-00 Functional Description The PI250MC-A6 consists of 13 imaging array sensors that are cascaded to provide 832 photo-detectors. Each sensor has their associated multiplex switches, and a digital shift register that controls its sequential readout. Each also contains a chip select switch so that each following chip is accessed sequentially as its predecessor chip completes its scan. Theses chips are mounted on a PCB board along with clock buffers and video signal amplifier. The only change from predecessor module was in this amplifier. It was slightly altered from its predecessor module to gain the single supply feature. See Figure 1. PI250-A6 module block diagram. GLED LED LED LED LED LED LED LED LED VLED ROD LENS 830 PHOTO SENSORS 1 2 3 4 5 831 832 ---------------- VIDEO LINE VN(-V) VDD (+5) SHIFT REGISTER GRD BUFFER CP VIDEO AMPLIFIER SP VOUT GRD Figure 1. PI250MC-A6 module block diagram The PCB containing the imaging array is enclosed in a module housing, along with a oneto-one graded indexed micro lens array that focuses the scanned documents' image onto the sensing line of the sensor chips. The document is illuminated with a LED light source which is also mounted in the housing. See Figure 2. PI250MC-A4 Cross Sectional View. DOCUMENT SURFACE GLASS WINDOW ROD LENS MODULE HOUSE LIGHT PATH D LE R BA SENSORS PCB INSIDE PICTORIAL OF MODULE Figure 2. PI250MC-A4 Cross Sectional View PAGE 2 OF 7 - PI250MC-A6, 12-9-00 This pictorial cross section shows the LED Bar light source and its Illumination path. The light on the document reflects images on the document. The reflected images focus through the micro lens onto the chips' image sensing line where images are converted to proportional electrical charges. An on board amplifier processes these signal charges into proportional video signal voltages, which is sent out to the output video port. All components are housed in a small plastic housing and covered with a glass window. This cover glass not only serves to protect all of the critical components within the housing from dust, but, along with micro lens, it determines the depth-of-focus because it lies in the optical path. Pin Out Description There is one connector located at the end of the module. The outline of the module in Figure 4 of the mechanical section illustrates the connector location. With the module window facing down on flat surface, with the viewer looking down on backside of the module, and with the connector's pins facing viewer, the connector is located on the right hand end of the module. The connector is a 1.25 mm single 10-pin row. Its I/O designation is provided in Table 1. I/O Designation. Pin number 1 location is indicated on the module outline. Pin Number 1 2 3 4 5 6 7 8 9 10 Symbol Vout Gnd Vdd (+5V) NA Gnd SP Gnd CP GLED VLED Names and Functions Analog Video Output Ground; 0V Positive power supply Not used Ground; 0V Shift register start pulse Ground; 0V Sampling clock pulse Ground for the light source; 0V Supply for the light source Table 1. I/O Designation PAGE 3 OF 7 - PI250MC-A6, 12-9-00 Absolute Maximum Rating: The following is a table of absolute maximum parameters. These parameters should not be used in prolonged operation. Parameter Power Supply Symbols Vdd Idd VLED ILED Vih Vil Input Clock Pulse (high) Input Clock Pulse (low) Maximum Rating 7.0 50 5.7 600 Vdd -0.5 Units V mA V mA V V Table 2. Absolute Maximum Rating Operating Environment Operating temperature Operating humidity Storage temperature Storage humidity Top Hop Tstg Hstg 0 0 to 50 10 to 85 -25 to 85 5 to 95 C % 0 C % Table 3. Operating Environment Electro-Optical Characteristics (25° C) Parameter Symbol Number of photo detectors Pixel to pixel spacing Line scanning rate Tint(1) Parameter 832 125 420 Units elements µm µsec Clock frequency(2) Fclk 2 MHz Bright output voltage(3) Video Output 1.0 V Bright output nonuniformity(4) Adjacent pixel nonuniformity(5) Up <+/-30 % Uadj <25 % PAGE 4 OF 7 - PI250MC-A6, 12-9-00 Note @ 2 MHz clock frequency See note 2 for 5.0 MHz operation. Specified for 420µsec. Dark nonuniformity(6) Dark output voltage Modulation transfer function(7) Ud Vd MTF <50 200<Vd<300 >50 mV mV % See note 7 for MTF & DOF. Table 4. Electro-optical characteristics at 25° C. Definition: (1) Tint: Line scanning rate or integration time. Tint is determined by the interval of two SP, start pulses. See note 2 for the high scanning speed operation. (2) Fclk: main clock frequency. The call out is at 2.0 MHz, but electrically module reliably operates to 5.0 MHz. However, it must be optically modified to obtain the minimum integration time of 167 µsec. This modification is offered as a user's option. (3) Vpavg = ∑ Vp(n)/832 (4) Up = [(Vpmax - Vp) / Vp] x 100% or [(Vp - Vpmin) / Vp] x 100% (5) Upadj = MAX[ | (Vp(n) - Vp(n+l) | / Vp(n)] x 100% Upadj is the nonuniformity percentage pixel to pixel (6) Ud = Vdmax - Vdmin Vdmin is the minimum output on a black document Vdmax: maximum output voltage of black document (7) MTF = [(Vmax - Vmin) / (Vmax + Vmin)] x 100 [%]. Depth of focus, DOF, range is defined with the MTF. MTF is measure at glass surface and at 0.4mm from the glass > 50% and peaks at approximately mid-point of 0.2mm. Vmax: maximum output voltage at 50 lp/inch (At 1/2 of the optical Nyquest Frequency) Vmin: minimum output voltage at 50 lp/inch (8) lp / inch: line pair per inch Table 5. Recommended Operating Conditions (25 °C) Item Symbol Min Power Supply Vdd 4.5 VLED 4.5 Idd 22 ILED 200 Input voltage at digital high Vih Vdd-1.0 Input voltage at digital low Vil 0 Clock frequency Fclk Clock pulse high duty cycle(1) 25 (1) Clock pulse high duration 50 Integration time(2) Tint 0.167 Operating temperature Top Mean 5.0 5.0 25 380 Vdd-.5 2.0 Max 5.5 5.5 30 450 Vdd 0.6 5.0 25 5.0 50 Table 5. Recommended Operating Conditions (25 °C) (1) These duty cycle and high duration are for 5.0 MHz clock rate. PAGE 5 OF 7 - PI250MC-A6, 12-9-00 Units V V ma ma V V MHz % ns ms 0 C (2) Tint (Min) is the lowest line integration time available at 5.0 MHz clock rate with internal optical modifications. See note 2 under Table 4. Switching Characteristics (25°C) tw to CP tprh tdh SP tdl tds Vout tsh MODULE TIMING DIAGRAM Figure 3. Clock and Start pluse Timing Diagram The switching characteristics for the I/O clocks are shown in Figure 3. Its corresponding timing symbol definitions are given in Table 6, below. Item Clock cycle time Clock pulse width Clock duty cycle Prohibit crossing time of Start Pulse Data setup time Data hold time Signal delay time Signal settling time Symbol to tw Min. tprh 0.2 50 25 15 tds tdh tdl tsh 20 20 50 120 Typical Max. 4.0 75 Table 6. Symbol Definition for the Above Timing Diagram PAGE 6 OF 7 - PI250MC-A6, 12-9-00 Units µs ns % ns ns ns ns ns Module and Its Mechanical Dimensions The sketch of this module is to provide a pictorial of the module size and structure. A detailed drawing is available upon request. 19 0 12 mm B J R LIN E g 6 m 14 PC D EA .5m s las su rfa .0m m in E 0p L3X 1 125 m S 5m 0P1.2 -Z-1 1 E A ce m .0m Pictorial of the Plastic Standard A6 Housing Size Figure 4. PI250MC-A6 Module Mechanical Outline ©2000 Peripheral Imaging Corporation. Printed in USA. All rights reserved. Specifications are subject to change without notice. Contents may not be reproduced in whole or in part without the express prior written permission of Peripheral Imaging Corporation. Information furnished herein is believed to be accurate and reliable. However, no responsibility is assumed by Peripheral Imaging Corporation for its use nor for any infringement of patents or other rights granted by implication or otherwise under any patent or patent rights of Peripheral Imaging Corporation. PAGE 7 OF 7 - PI250MC-A6, 12-9-00