Manuel d'utilisation / d'entretien du produit P310 du fabricant The Eltron Company
Aller à la page of 112
P310 Maintenance Manual Manual No. 980264-001 Rev. B ©2001 Zebra Technologies Corporation CP P ARD RINTER RODUCTS.
.
FOREWORD This manual contains service and repair information for P310 Card Printers manufactured by Zebra Technology Corporation, Camarillo, California.
This information is not intended as a license to practice or infringe on the patents of this company or others. Zebra Technology Corporation reserves the right to modify, update or revise this information at any time without notice. TRADEMARKS Eltron is a trademark of Zebra Technology Corporation.
v Table of Contents CHAPTER 1 GENERAL DESCRIPTION PRINTER DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 Options · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · 1-2 Major Elements .
vi Motor Control Circuitry · · · · · · · · · · · · · · · · · · · · · · · · · · · · 3-14 Status Circuitry · · · · · · · · · · · · · · · · · · · · · · .
vii Table of Figures Figure 1-1. Major Elements . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 Figure 2-1. Packaging Materials . . . . . . . . . . . . . . . . . . . . . . . 2-2 Figure 2-2. Tape and Packing. . . . . . . . . . . . . . . . . . . .
viii Figure 4-1. Problems Duplicated by a Test Print. . . . . . . . . . . . . . . 4-2 Figure 4-2. Interface Diagnostic Flow. . . . . . . . . . . . . . . . . . . . . 4-4 Figure 5-1. Rear Case Fasteners. . . . . . . . . . . . . . . . . . . . . . . 5-3 Figure 5-2.
CHAPTER 1 GENERAL DESCRIPTION 1.1 PRINTER DESCRIPTION Eltron® Model P310 printers offer low cost solutions to those that need to print, encode magnetic stripes, or program smart plastic cards.
objects. For those who wish to create card graphics from their software applications, the units ship with both Windows 95/98 and NT drivers. Both drivers support True Type fonts. 1.1.1 Options Plastic card varieties include Smart Cards and cards with Magnetic Stripes.
adjust the feeder for other thicknesses as well. The Card Feed Hopper, has an attached Card Weight that positions itself on top of a stack of cards in the Hopper. This added weight increases the grip of the card feed rollers and assures reliable card feeds throughout cartridge-full to cartridge-empty conditions.
1.2.5 Magnetic Stripe Encoder (Option) Printers equipped with Magnetic Stripe Encoders fully support the encoding of cards with magnetic stripes. This includes several encoding formats. Read-After-Write checking occurs with each encoding to assure a reliable result.
1.4 CAUTIONARY NOTES Exercise reasonable care when servicing P310 printers, as follows: Other than prescribed operator maintenance, only qualified personnel should remove the case or otherwise attempt to repair this equipment. Eltron offers product training to those wishing to service this equipment.
1.5 PACKAGING CONSIDERATIONS The factory-supplied shipping carton contains the Printer placed inside a protective ESD (Electrostatic Discharge) bag and suspended in form-fitting end cushions made from a foam material. These are the only materials approved for P310 shipments.
CHAPTER 2 INSTALLATION AND OPERATION This chapter includes information on the following: • Unpacking • Installation • Controls and Indicators • Card and Ribbon Loading Similar descriptions also appear in the associated User’s Guide and other manuals shipped with the printer.
2.1 INSTALLATION 2.1.1 Unpacking Figure 2-1 shows the carrier-approved packaging materials used for shipping and how these items fit within inside and outside cartons.
2.1.2 Tape and Packing Removals Figure 2-2 shows the tape and packing material that requires removal prior to printer operation. 2.1.3 Card Input Hopper Installation Figure 2-3 shows Installation of the Card Input Cartridge. 980264-001 Rev. B 2-3 CHAPTER 2 Figure 2-2.
2.1.4 Card Catcher Installation Figure 2-4 shows the installation of the Card Catcher. 2.1.5 Cleaning Roller Cartridge Preparation Figure 2-5 shows how to install the Cleaning Roller into the Cleaning Roller Cartridge. 2-4 980264-001 Rev.B CHAPTER 2 Figure 2-4.
2.1.6 Cleaning Roller Tape Removal Figure 2-6 shows removal of the tape protecting the tacky surface. 2.1.7 Cleaning Roller Cartridge Installation Figure 2-7 shows where the Cleaning Roller Cartridge fits into the Printer. 980264-001 Rev. B 2-5 CHAPTER 2 Figure 2-6.
2.1.8 Location Concerns Users should avoid dusty locations. Until ready for use, keep ribbon and card media in their cartons. Select a location that offers easy access to all sides plus an unrestricted air flow. Avoid locations that experience extremes in temperature and/or humidity.
980264-001 Rev. B 2-7 CHAPTER 2 USB Co nce rns (USB Specificat ion Rev . 2.0) 1. USB -Equipped Host Computers have Hub connection(s ) and software that support s the connections f or up to 127 devices ( either USB F unctions or USB Hubs), all hot swapable.
2.1.10 Parallel an Serial Cable Diagrams Figure 2-10 shows the cable wiring. 2-8 980264-001 Rev.B CHAPTER 2 PRINTER MODULE DB -25 Pi n No . DB -25 Pi n No . F e m a l eD B - 2 5t oM a l eD B - 2 5 HOST STROBE DA T A 0 DA T A 1 DA T A 2 DA T A 3 DA T A 4 DA T A 5 DA T A 6 DA T A 7 ACK/ BUSY P APER ERR.
2.2 OPERATION 2.2.1 Controls and Indicators Figure 2-11 shows the push-button switch and LEDs (light emitting diodes) that appear on the front of the Printer. The Power Switch resides on the rear. Users press the Printer Button to reinitialize P310 printers.
2.2.3 Print Head Release and Latch Levers Figure 2-12 shows the Release and Latch levers for the Print Head. Users open the Cover and raise the Print Head during manual Cleaning Procedures, removal of card jams, and ribbon loads. 2-10 980264-001 Rev.B CHAPTER 2 Figure 2-12.
2.2.4 Ribbon Loading Figure 2-13 shows the loading of ribbons. Note that by keeping the Power ON during Ribbon Loads, a suspended operation resumes automatically with the Print Head latch-down that completes Ribbon Loading. Step 1. Remove the ribbon from its packaging and the material holding the supply and take up rolls together.
2.2.5 Card Gate Adjustment Figure 2-14 shows the Card Gate Adjustment Lever with arrows that show the directions of travel. Step 1. Set the Card Gate Thickness Lever to match the thickness of the cards. Note that lever positions closer to the back of the printer open the Card Feed Gate for thicker cards.
2.2.6 Loading Card Input Hopper Figure 2-15 shows the Card Input Hopper actions necessary to replenish cards. Step 1. Press down on Release Tab, and rotate Hopper to open position. Step 2. Place cards in Hopper with printed side facing right (facing up with hopper closed).
2.2.7 Starting the Cleaning Cycle As noted in Section 2.2, the right two panel LEDs flash when the time for a Cleaning Cycle arrives. Until performed, normal operations cannot continue. While the flashing occurs at card count intervals determined by a printer command (see Programmer's Manual), users can initiate a Cleaning Cycle at any time.
CHAPTER 3 THEORY OF OPERATION This chapter includes three major topics: • Color Fundamentals • Card Path Elements • Circuit Descriptions 3.1 COLOR FUNDAMENTALS The following offers readers a per.
Saturated colors are colors in their purest state. This means they contain no white (as in pastels) or black (contrast reduction) components. A so-called trained observer can discern about 450 fully saturated shades. When these colors are diluted by black, the number of discernable shades diminishes.
Offset printing and Dye Sublimation can produce a substantial range of colors within just one dot. Color Monitors produce their range of colors using a red, green, and blue (RGB) three-dot matrix. Scanners and digital cameras employ charge-coupled devices (CCDs) that capture and deliver RGB components.
Not all images require high dot densities. The need for high dot density decreases as the viewing distance increases. For example, a large roadside sign may require separations screened at only four lines-per-inch. Such a sign would appear like a mosaic of CMYK dots if viewed from too close a distance.
color of the print media. In monitors, maximum intensities (maximum additions) result in white, and minimum intensities produce black. Because light reflected from print media depends on ambient lighting, users may get darker images from a printer than they see on their monitor, where a brightness setting exists.
green, and blue CRT phosphors. Moreover, devices with a brightness control allow a wide range of image intensities. Active Matrix Displays generate images from a back-lighted grid that activates red, green, and blue LCD pixel elements. For paper, and other print media, gloss affects brightness, and Black Body Temperature affects hue.
3.2 PRINTING Color imaging requires three passes of Card media underneath the Print Head. Card media shuttles back and forth across the print head during this process. The ribbon feeds between the image head and the card media and during printing advances from its supply to its take-up reels in step with an advancing Card.
3.3 CARD PATH ELEMENTS The upper part of Figure 3-1 points out the rollers that transport Cards. The lower part identifies the sensors that detect the various events that occur during card printing.
980264-001 Rev. B 3-9 CHAPTER 3 Card Feed Rolle r Cleaning Rolle r T ransport and Platen Rolle rs Ribbon Ta k e U p Card Pa t h Daughter Board Magn et ic Encoder (Option) Cam F ollower (Raises Encoder.
3.4 CIRCUIT DESCRIPTIONS As shown in Figure 3-2, P310 Printers have the following circuits: • Print Head Circuiry • Motor Control Circuitry • Status Circuitry • Interface Circuitry • Operator Panel Circuitry • Optional Encoder and/or Smart Card Circuitry If possible, spend some time with this figure.
980264-001 Rev. B 3-11 CHAPTER 3 Serial P ort Driv er Smart Card Contact Station (Option) Encoder Board (Option) Read /W rite Heads Pa r a m e t e r Status FLASH RAM Stepper Moto r Driv e Stepper Moto.
3.4.1 Print Head Circuitry Figure 3-3 shows the Print Head circuitry. Note that one part lies on the CPU board, and another part lies on the Print Head Assembly. After a reset, which occurs at initialization, the processor places 32 bits of image data on the data bus.
980264-001 Rev. B 3-13 CHAPTER 3 U15 QA QH CK SH-LD/ U14 QA QH CK SH-LD/ U12 QA QH CK SH-LD/ U13 QA QH CK SH-LD/ Q Q D CLR CK Q Q D CLR CK Q1 Q4 Q5 Q14 CLK CLR CTN GND DA T A4 DA T A2 STROBE STROBE HE.
3.4.2 Motor Control Circuitry Figure 3-4 shows the Motor Control Circuitry. Stepper Motor inputs PHASE 1 through PHASE 4 determine the direction of rotation and stepping verses fractional stepping. The micro controller loads data into registers U26 and U27 through activation of CS MOT.
980264-001 Rev. B 3-15 CHAPTER 3 PHASE 1 PHASE 2 PHASE 3 PHASE 4 J10 Stepper Moto r U28 Q1~8 C OC Q1~2 C OC Q3~8 RESET CS MO T (CS7/) D16~23 D24~31 D16~31 D24~31 1A1 1A2 2A1 1A2 2EN 1EN VS 1Y2 1Y1 2Y1.
3.4.3 Status Circuitry Figure 3-5 shows the Status circuitry. This circuitry allows the Micro Controller to monitor all the operational status of the basic printer. On the left are Card, Ribbon panel, Flag, Head Latch, and Head up/Down Sensors. Below these appear the Print Head Temperature Sensing Thermistor.
980264-001 Rev. B 3-17 CHAPTER 3 SD0 SD1 SCLK CS/ RS/ SHDN U22 CLK OC D1 D2 D3 D4 D5 D6 D7 D8 Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 CLK OC D1 D2 D3 D4 D5 D6 D7 D8 Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 RF I L MT SYNCHRO COULEUR P.
3.4.4 Serial and Parallel Port Circuitry Figure 3-6 shows the Parallel and Serial Port circuitry. Note that a Serial Host Port is optional. When used, the Micro Controller supplies the Serial Port data signals. U18 is a receiver/transmitter that has a built-in charge pump for outputs that require ±10-volt swings.
980264-001 Rev. B 3-19 CHAPTER 3 Vcc J8 8 7 6 5 4 3 2 1 Vdd+24V C1+ C1- T1 IN R2 OUT T2 IN R1 OUT C2+ C2- T1 OUT R2 IN T2 OUT R1 IN U- U+ U18 Vcc 100nf 1k 5 4 3 2 1 J5 EXT2 TXD1 RXD1 TXD2 RXD2 EXT3 Ho.
3.4.5 USB Port Circuitry (Optional) Figure 3-7 shows the USB circuitry. This circuitry resides on a separate board that attaches to the same connector that the Magnetic Stripe Encoder Connector can use.
3.4.6 Magnetic Stripe Encoder Circuitry (Option) Figure 3-8 shows the Magnetic Strip Encoder elements, consisting of the board, Read/Write heads and associated cables. The Encoder Board is a purchased part that Eltron Card neither designs nor assembles.
3.4.7 Smart Card Circuitry (Option) Figure 3-9 shows the Smart Card circuitry. Note that J05 interfaces with the Main Circuit Board of the printer, and that the DB-9 connector interfaces with the user’s Smart Card Programming Device. Also note that the Smart Card Station has two sets of contacts—supporting two Smart Card Chip placements.
980264-001 Rev. B 3-23 CHAPTER 3 C8 C7 C6 C5 C1 C2 C3 C4 C4 C3 C2 C1 C5 C6 C7 C8 T op V iew w ith Contac ts Fa c i n g D o w n Vcc RST CLK RFU GND Vpp I/O RFU C1 C2 C3 C4 C5 C6 C7 C8 C1 C2 C3 C4 C5 C6.
3.4.8 Operator Panel Circuitry Figure 3-103 shows the circuit elements contained on the Operator Panel Board. The Micro Controller supplies or receives the signal shown. 3.4.9 Power Regulator Circuitry Figure 3-11 shows the power circuitry on the CPU Board.
CHAPTER 4 TROUBLESHOOTING Typically, troubleshooting begins with an attempt to relate a problem to an associated component or system function. In this phase, servicing personnel may attempt to duplicate the problem and then use various means to test for a malfunction or improper system setup.
4.1 DIAGNOSING BASIC PRINTER PROBLEMS Figure 4-1 shows a diagnostic flow diagram designed to reproduce problems related to card images and card transports.
Problems Associated with Print Anomalies Symptom Possible Causes References Adjustment or Cleaning Replace- ment No Image Non Eltron Ribbon Installed Upside Down CPU Board Head Up/Dn Motor Head Position Sensors 2.2.4 5.2.10 5.2.16 5.2.12 Faint Image Low Print Head Voltage Dirty Print Head 6.
4.2 DIAGNOSING COMPUTER INTERFACE PROBLEMS Figure 4-2 shows a flow diagram that checks the interface to the computer. For additional information, see: • Cabling— • Theory— • Replacements— 4-4 980264-001 Rev.
CHAPTER 5 REPLACEMENT PROCEDURES This chapter consists of part replacement procedures for those items either found or suspected of malfunctioning. These procedures cover the items checked during the troubleshooting presented in the previous chapter.
5.1 REQUIRED TOOLS The following tools and fixtures are the basic items required for repair and adjustment: Item No. Tool Description 1 Number 1 Phillips Bit 2 1.5 Millimeter Allen Bit 3 2.5 Millimeter Allen Bit 4 5.9 Millimeter Allen Bit 5 3-Millimeter E-Ring Tool 6 5.
5.2 PART REPLACEMENTS The following sections describe the requirements for removing both major assemblies and, where applicable, components on those assemblies that appear in the list of spares. Only removal descriptions appear. Unless noted otherwise, replacements can take place by reversing the steps required for removals.
5.2.2 Front Case Removal Refer to Figure 5-2, and proceed as follows: Step 1. Remove the Rear Case (see Section 5.2.1). Step 2. Remove the Card Input Cartridge and Output Catcher (see Section 2.6) Step 3. Remove the five screws holding the Front Case.
5.2.3 Bottom Plate Removal Figure 5-3 shows the screws and connectors associated with removal of the Bottom Plate. Proceed as follows: Step 1. Disconnect the Parallel Interface and Power Supply connectors from the CPU board, and unplug the Ground Lug.
5.2.4 Power Supply Replacement Figure 5-4 shows the Bottom Plate and Power Supply with the shield removed. Step 1. Remove the Front and Back Case members (see Sections 5.2.1 and 5.2.2) and the Bottom Plate (see Section 5.2.3). Step 2. Remove the four Shield Fasteners.
5.2.5 Card Feeder Part Removals Figure 5-5 shows the fasteners associated with Card Feeder parts. Replaceable items include the Belt, Roller, Motor, or the unit as a whole.
5.2.6 Print Head Replacement Replacement Print Heads arrive in ESD-safe plastic bags. Upon removal, servicing personnel should exercise extreme care to protect the Print Head from both ESD and mechanical damage to the delicate internal circuitry and Print Head Elements.
980264-001 Rev. B 5-9 CHAPTER 5 Step 2. As shown in Figure 5-7, loosen the screw holding the Ground Lug, and pull the Lug free. Figure 5-7. Print Head Ground Lug.
Step 3. As shown in Figure 5-8, unhook the ring holding the lower part of the Print Head Assembly, and slide the unit away from its mounting. Note that this step may require some loosening of attached cables. 5-10 980264-001 Rev.B CHAPTER 5 Figure 5-8.
Step 4. Disconnect the two cable connectors from the Print Head Assembly shown in Figure 5-9. Note that until pushed away, a spring tab prevents removal of the far connector. The near connector locks onto a connector extension, which releases with a slight deflection.
Step 6. Note the Resistance label on the new Print Head, and install a new Print Head by reversing the steps used during removal. Before tightening the Torx Screws, make sure to push the Print Head in as far as possible, as shown in Figure 5-10. DO NOT adjust the screw that stops the Print Head when pushing the unit in.
5.2.7 Fan Removal Two self-tapping screws secure both the Fan and the associated Fan Guard. Refer to Figure 5-11, and proceed as follows: Step 1. Remove the Rear Case Member (see Section 5.2.2). Step 2. Disconnect the Fan Connector from the CPU Board.
5.2.8 Ribbon Sensor Removal The four wires of the Ribbon Sensor connect to the Daughter Board. Refer to Figure 5-12, and proceed as follows: Step 1. Remove Rear Case, and disconnect the wires from the CPU Board, and if installed, the Encoder Board (see Sections 5.
5.2.9 Front Belt Removals Figure 5-13 shows the Front Belts. These belts transport cards downstream from the Platen Roller. Proceed as follows: Step 1. Remove the Rear and Front Case Members (see Sections 5.2.1 and 5.2.2). Step 2. Slide the belt(s) off of the respective pulley(s).
5.2.10 CPU and Encoder Board Replacements See Appendix A for CPU Board tests. Note that removal of the underlying plate does not require removal of these boards for the required access. Only unplug the connectors. Refer to Figure 5-14, and proceed as follows: Step 1.
5.2.11 Rear Plate Removal Access to the Daughter Board and the associated motor and sensor connectors, and their related component replacements, requires removal of the Rear Plate. Of these, only the Card Feed Motor Connector is accessible with the Rear Plate in place.
5.2.12 Daughter Board Removal Note that this board contains the Print Head Up-Down Sensors and connectors for the remaining sensors and all motors. Access to this board is a prerequisite for all associated replacements except for the Card Feed Motor. Refer to Figure 5-16, and proceed as follows: Step 1.
5.2.13 Flag and Head Latch Sensor Board Replacement. Refer to Figure 5-17, and proceed as follows: Step 1. Remove the Rear Case Member (see Section 5.2.1). Step 2. Unplug connectors on the CPU Board and, if installed, the Encoder Board (see Section 5.
5.2.14 Rear Belt and O-Ring Removal Figure 5-18 shows the three timing belts that extend stepper motor drive to the Platen and two rollers that drive cards between the Card Feeder and Platen. The figure also shows the O-ring that drives the Ribbon Take Up Spindle.
5.2.15 Smart Card Interface Board Replacement (Option) Units equipped for Smart Card Docking have the following components: • Smart Card Interface PWB • Smart Card Solenoid • Smart Card Contact Station For Smart Card Interface removal, refer to Figure 5-19, and proceed as follows: Step 1.
For Smart Card Solenoid removal, proceed as follows: Step 1. Remove the Rear Case (see Section 5.2.1), the Front Case (see Section 5.2.2), and the Bottom Plate (see Section 5.2.3). Step 2. Remove the two fasteners holding the Solenoid, followed by the solenoid and associated Card Lift Bracket (see Figure 5-20).
For Smart Card Contact Station removal, refer to Figure 5-21, and proceed as follows: Step 1. Remove the Rear Case (see Section 5.2.1). Step 2. Remove both the screw holding the Smart Card Station and the cable braid.
5.2.16 Encoder Head Replacement Two Encoder Head configurations exist—the standard below-the-card-path configuration and the above-the-card-path configuration. For Common Requirements: Step 1. Remove the Rear Case (see Section 5.2.1). Step 2. Remove the Encoder Station Shroud (see Figure 5-22).
For Below the Card Path Configurations: Step 1. Remove the Front Case (see Section 5.2.2), and the Encoder Board (see Section 5.2.10). Step 2. Remove the screw and washer holding the Pressure Roller Support Rod that overlies the Encoder Head (see Figure 5-24).
Step 4. Snap the Front Pressure Roller free of the rod by applying pressure to the right side while holding the left side stationary (see Figure 5-25). Step 5. By applying force to the area previously occupied by the Pressure Roller, work the Pressure Roller Rod toward the front.
Step 6. Remove the two screws holding the Encoder Head Assembly. Then, while feeding the associated cables through the Rear Plate cutout, Remove the Encoder Head (see Figure 5-27). 980264-001 Rev. B 5-27 CHAPTER 5 Figure 5-26. Pressure Roller Rod Removal.
Step 7. Install the new Encoder Head, and replace the overlying parts previously removed. Feed cables through plastic frame, and to the Encoder Board (see Figure 5-14). Note that new Encoder Heads have a protective tape cover (see Figure 5-28). To avoid possible Encoder Head damage, postpone tape removal until just before replacement of the Shroud.
Step 2. Unplug the connector for the the motor being replaced from the Daughter Board. Step 3. Remove the belt and cam or pulley from the motor being replaced. Step 4. Remove the three screws holding the motor being replaced and work the motor out from the bottom of the printer.
5.2.18 Ribbon Supply Spindle and Clutch Replacements Figure 5-30 shows the Ribbon Supply Spindle and associated Clutch Assembly. Replacement options include any of the parts that appear in the exploded view. Step 1. Remove the Rear Case (see Section 5.
980264-001 Rev. B 5-31 CHAPTER 5 Figure 5-30. Supply Spindle Assembly.
5.2.19 Ribbon Take Up Spindle Replacements Figure 5-31 shows the Ribbon Take Up Spindle. Replacement options include any of the parts that appear in the exploded view. Step 1. Remove the Rear Case (see Section 5.2.1) the Front Case (see Section 5.2.2) and the Rear Plate (see Section 5.
980264-001 Rev. B 5-33 CHAPTER 5 Figure 5-31. Ribbon Take Up Spindle.
5-34 980264-001 Rev.B CHAPTER 5.
CHAPTER 6 MAINTENANCE AND ADJUSTMENTS This chapter contains procedures for Cleaning and Adjustments. A more thorough cleaning than the Cleaning Card procedure offered in Chapter 2 appears in this chapter. Other than roller, Heat Sink, and Print Head cleaning, no other regular maintenance requirements exist.
6.1 CLEANING MATERIALS Figure 6-1 shows a Cleaning Kit swab. 6.2 CLEANING This Section describes a manual cleaning of the Print Head and Card Transport Rollers. For Encoder-equipped models, Encoder Heads require a cleaning using the Cleaning Cards (see Cleaning Alert—Sections 2.
Step 3. Select a suitable fiber-free cleaning media. For ordinary foam-tipped swabs moisten with alcohol, For Eltron-supplied swabs, bend the foam tip until the underlying plastic breaks and releases alcohol into the tip. Step 4. For Transport Rollers, rub the Swab over all roller surfaces.
6.2.2 Cleaning the Print Head Refer to Figure 6-3, and proceed as follows: Step 1. Turn off power, and allow about five minutes for a cool down. Step 2. Open the cover, raise the Print Head, and remove any ribbon installed. Step 3. Using an alcohol-moistened swab and moderate pressure, clean the Print Head elements.
6.3 OBTAINING AND INSTALLING FIRMWARE UPDATES P310 Firmware resides in Flash Memory. Those needing an update or reload can get the latest version of the firmware from the Eltron Web Site (www.eltroncards.com). Once there, selection of firmware and then the printer model produces a dialog box with the related file already selected.
6.4.1 Stepper Belt Tension Three screws fasten the Stepper Motor to the rear chassis casting. For belt tensioning purposes, two of the screws hold the motor through slotted holes. The remaining screw feeds through a non-slotted hole that serves as a pivot point for motor position adjustments.
Step 3. Attach the Belt Tensioning Fixture between the Stepper and Platen pulleys (see Figure 6-5). Note that two cutouts on the fixture attach to the platen and stepper pulley shafts, respectively, and that the post between these cutouts must bear on the right side of the stepper belt.
6-8 980264-001 Rev.B CHAPTER 6 Figure 6-6. Stepper Belt Tensioning..
6.4.2 Print Head Tilt Adjustments Print Head Tilt adjustments serve to position the imaging elements with reference to the Platen Roller. Two alignments exist. The adjustment that tilts the Print Head relative to the high point of the Platen Roller determines image brightness.
Step 4. Adjust the Brightness Adjustment Screw by either loosening or tightening. Remember the amount and direction of adjustment. If loosening, push the Head Assembly until the adjustment screw again bears against the Print Head Yoke. Step 5. Tighten the Head Fasteners in the sequence shown.
For an adjustment to make the Print Head parallel to the Platen Roller, continue as follows: Step 8. Unlatch and raise the Print Head. Step 9. Slightly loosen the Print Head fasteners shown in Figure 6-9. However, try to maintain a tightness just sufficient to leave the Print Head position undisturbed.
6.4.3 Print Head Peel Bar Position Adjustment Figure 6-10 shows the two screws that fasten the Peel Bar to the Print Head assembly. Slotted holes allow Peel Bar positioning. The Peel Bar controls ribbon flow over the Print Head to establish a centered take up without wrinkling or off-spindle travel.
6.4.4 Image Centering Centering establishes x- and y-offset values. The x offset determines when a Print Head lowers and raises, between which printing occurs.
Step 4. Either measure or estimate any departure from a centered image, and convert the result to dots. Note that at 300 dpi, the distance between dots measures 0.00333... inches. Also, 300 dpi converts to 11.81 dots per millimeter, and the dot spacing measures 0.
APPENDIX A TEST SOFTWARE Test Software supports factory checks that contribute to a functioning Printer. Because of the intuitive nature of the software, this appendix only calls attention to some Typical Test Software operations.
A.2.1 Launching the Card Printer Test Software With DOS operating and the prompt set to the volume and folder containing the Test Software (e.g., C:PNTRTST). Enter the following to launch the executable file in the folder: p323v2p1 Note that the previous string may not launch later releases of the software.
Selection of Item 3 from the previous screen (and entry of the code requested) produces the following screen: 980264-001 Rev. B A-3 APPENDIX A.
Particularly note the following: • A selection results by typing a list item number followed by <Enter>. • Selection of Exit returns the DOS prompt. • Selection of “Change of COM port” should always follow the program launch to establish the port that has the Printer attached.
A.2.3 Operating in Terminal Mode The following screen appears following selection of item 4, Terminal Mode, from the second screen. Terminal Mode offers a convenient means for sending commands to the printer. This screen allows entry of all applicable commands found in the Programmer’s Manual.
A.2.4 Typical Sub List Selection of Item 2, Mechanic Test, from the second screen produces the following screen, which offers related selections. Note that some items in this list produce an end result, while others lead to another screen. A-6 980264-001 Rev.
A.2.5 Sensor Test Selection The following screen appears after selection of item 2, Sensors Test, from the previous screen. 980264-001 Rev. B A-7 APPENDIX A.
World Wide Sales and Support Zebra Technologies Corporation Eltron Card Printer Products 1001 Flynn Road Camarillo, CA 93012-8706 USA Phone: +1 (805) 579 1800 FAX: +1 (805) 579 1808 Toll Free in US: (800) 452 4056 e-mail: cards@eltron.
Un point important après l'achat de l'appareil (ou même avant l'achat) est de lire le manuel d'utilisation. Nous devons le faire pour quelques raisons simples:
Si vous n'avez pas encore acheté The Eltron Company P310 c'est un bon moment pour vous familiariser avec les données de base sur le produit. Consulter d'abord les pages initiales du manuel d'utilisation, que vous trouverez ci-dessus. Vous devriez y trouver les données techniques les plus importants du The Eltron Company P310 - de cette manière, vous pouvez vérifier si l'équipement répond à vos besoins. Explorant les pages suivantes du manuel d'utilisation The Eltron Company P310, vous apprendrez toutes les caractéristiques du produit et des informations sur son fonctionnement. Les informations sur le The Eltron Company P310 va certainement vous aider à prendre une décision concernant l'achat.
Dans une situation où vous avez déjà le The Eltron Company P310, mais vous avez pas encore lu le manuel d'utilisation, vous devez le faire pour les raisons décrites ci-dessus,. Vous saurez alors si vous avez correctement utilisé les fonctions disponibles, et si vous avez commis des erreurs qui peuvent réduire la durée de vie du The Eltron Company P310.
Cependant, l'un des rôles les plus importants pour l'utilisateur joués par les manuels d'utilisateur est d'aider à résoudre les problèmes concernant le The Eltron Company P310. Presque toujours, vous y trouverez Troubleshooting, soit les pannes et les défaillances les plus fréquentes de l'apparei The Eltron Company P310 ainsi que les instructions sur la façon de les résoudre. Même si vous ne parvenez pas à résoudre le problème, le manuel d‘utilisation va vous montrer le chemin d'une nouvelle procédure – le contact avec le centre de service à la clientèle ou le service le plus proche.