IE970208A1 - A point-of-sale transaction terminal - Google Patents

Abstract

A point-of-sale terminal (1) has a removable control circuit (20) upon which is mounted a separate and removable communications circuit (21). A printer (25) is mounted over these circuits by use of bridging supports (26). Control, communications and printing functions of the terminal are easily interchangeable because of the signalling and mechanical interconnections. Openings (12) in the base of the terminal (1) are blanked out by blanks (46). The terminal may be converted to a portable unit by insertion of galvanic contacts in openings (12) for connection to battery charging probes in a fixed cradle which communicates with an authorisation processor. For this mode, the communications circuit (21) is a radio transceiver for radio communication with the cradle. <Fig. 3>

Description

The invention relates to a point-of-sale transaction terminal for use in the processing of transaction cards such as magnetic stripe or smart cards at a point-of-sale.

Such terminals are described in United States Patent Specification Nos. US5362952 (MicroBilt) and US5557087 (Duyck). These terminals provide on-line communication with a central authorisation processor for card authorisation, direct printing of receipts, and display transaction data. A unitary- terminal with all functionality in the one unit is described in US4782217 ( Norand).

It is desirable in many retail situations such as in a restaurant to provide a portable terminal . In this way, the terminal may be carried to a particular location and the transaction executed in real time with wireless communication for card authorisation. Such terminals are described in International Patent Specification Nos WO 94/02908 (Telxon) and WO 96/26505 (Coveley).

While these terminals are quite useful, they are apparently difficult to modify, to adapt to changing technologies and customer requirements. For example, there is a need for a terminal which can operate satisfactorily in a desk-top mode at the point-of-sale, but can be easily modified to allow portable use. This would considerably reduce production costs, and allow easier user training because of better familiarity with both versions. It is also desirable to improve versatility in configuring terminals according to specific customer requirements. This is particularly important - 2 because of rapid changes in technology employed in the terminals .

The invention is directed towards providing such a construction of terminal.

According to the invention there is provided a unitary point-of-sale terminal comprising:a terminal casing comprising lower and upper inter-engaging casing parts; a keypad, a display, and a printer paper housing in the upper casing part; a transaction card reader; a modular printer removably mounted within the casing adjacent the printer paper housing; a modular communication circuit removably mounted within the casing; a modular control circuit removably mounted in the base of the lower casing part and connected by sockets to the keypad, the display, the printer, the communication circuit, and the card reader, and means in the lower casing part to form openings, whereby the terminal may be converted for portable use by forming the openings and inserting a control circuit having interface components in registry with the openings.

The features of the casing construction, modularity of the printer and circuits, and the means in the lower casing part for forming openings allow considerable versatility both during production and after final delivery. The terminal may be easily upgraded in a modular manner either to provide more up-to-date features or to convert to portable use. Maintenance is also simpler.

In one embodiment, the keypad the display, and the printer paper housing are located in-line on the upper casing part and the casing is of elongate generally rectangular shape in plan in which the length in the· direction of alignment of the keypad, display and housing is substantially greater than the width. This is a very compact construction, suitable for placing on a retail counter where space is often limited.

Preferably, the transaction card reader is a magnetic card reader mounted along one side of the casing for card swiping in the alignment direction. This is a compact and ergonomic arrangement.

In one embodiment, the upper casing part supports a hinged cover for the printer paper housing, said cover having a paper exit slot having a sharp paper-cutting edge. This allows changing of paper rolls in a very simple way.

Preferably, the printer is removably mounted on support brackets which extend downwardly on either side of the control and communication circuits. This allows both compactness and easy interchanging of the printer.

In one embodiment, the card reader is a magnetic card reader which is directly connected by clock and data lines ιι— n~7nnnn ic y/uzuo - 4 to a control processor on the control circuit, and the processor is programmed to automatically store received data bits on all clock and data lines, to eliminate invalid bits after card reading, and to generate the card data using the valid bits after card reading. The direct connection results in few circuit components, and allows greater versatility whereby the control circuit can operate with different types of magnetic card reader.

In one embodiment the control processor is programmed to read all clock and data bits when any of the clock lines indicates data transmission, all of the bits for each clock indication being written to a single addressable byte for post-reading processing. Preferably the control processor is programmed to process the bytes by eliminating all clock bits which do not indicate data transmission, and their associated data bits. In one embodiment, the control circuit comprises a logic gate connected to the clock and data lines to detect a cardreading indication, and is connected to an interrupt port of the control circuit processor.

In another embodiment the control circuit comprises means for transmitting to the printer circuit low-level general printing commands indicating only the basic characters to be printed. This allows use of a wide range of printers having processing circuits.

Preferably, the control circuit comprises means for transmitting an initialisation string followed by a software protocol corresponding to the dialled host to the communications circuit, the communications circuit comprising means for using these signals to establish communication between the control circuit and a host via the communications processor. ϊΕ 970208 In one embodiment, the terminal further comprises an external switch mode power supply providing a surplus voltage level in excess of O.5.V, and the control circuit comprises a low dropout regulator connected to receive power. This minimises heat generation within the terminal - particularly important for compactness. It is only the drop across the regulator which causes heat generation.

Preferably, the power supply is connected to a socket in the casing by a plug having a lock to prevent inadvertent disconnection, the lock being actuated by an outer sleeve of the plug. This is a very simple but effective way of ensuring reliability at a busy retail counter.

In one embodiment, the lower casing part comprises a formation for inter-engagement with a corresponding formation of a cradle upon which the terminal may be placed. This is a simple way of allowing use of the terminal with a cradle without affecting its operation in a counter-top mains mode.

According to another aspect, the invention provides a point-of-sale portable terminal system comprising a terminal as claimed in any preceding claim, wherein:the communication circuit is a wireless transceiver circuit, the terminal has a rechargeable battery power supply, galvanic contacts connected to a battery charging circuit are inserted in openings in the lower casing part, and ILL Il Z I 1 X 1 ZJ f V*-'signal interfacing light emitting and receiving devices are mounted in a signal interface opening of the lower casing part; and the system further comprises a cradle comprising:a formation for inter-engagement with the formation on the lower casing part for mechanical registry while supporting the terminal; current charging probes for connection to the galvanic contacts of the terminal; light emitting and receiving devices for interaction with the signal light emitting and receiving devices of the terminal; a communication circuit for communication with a remote authorisation processor; and a wireless transceiver circuit for communication with the transceiver circuit of the terminal.

This is a very effective way of providing portable terminals. Whenever in-site on the cradle the terminal is charged, and the LEDs provide very fast data transfer with simple control circuits.

Preferably, the wireless transceiver circuits are radio frequency transceiver circuits, each having a radio antenna. In one embodiment, the cradle comprises a raised peripheral portion forming a seat for the terminal. Preferably, the formation on the cradle is a protrusion and the formation on the lower casing part is a corresponding recess. ΙΙ /ίΙ'ΊΛΛΓΊ IC 7 UZUO - 7 The invention will be more clearly understood from the following description of some embodiments thereof, given by way of example only with reference to the accompanying drawings in which:Fig 1 is a perspective view from above of a point-of-sale terminal of the invention; Fig 2 is an underneath plan view of the terminal; Fig 3 is a diagrammatic part cross-sectional view illustrating construction of the terminal in more detail; Fig 4 is an exploded view showing interconnection of some of the major components of the terminal; Fig 5 is a perspective view of a cradle forming part of a portable terminal system of the invention; Fig 6 is a diagrammatic cross-sectional view illustrating interfacing of a portable unit with a cradle; Fig 7 is a diagram illustrating the electronic circuits of the terminal; Fig 8 is a diagram illustrating interconnection of a magnetic card reader and a microprocessor; and Fig 9 is a flow diagram illustrating the manner in which data read from a magnetic card is processed.

Referring to the drawings, and initially to Fig 1 there is shown a point-of-sale terminal 1 of the invention. The terminal 1 comprises a lower casing part 2 connected to an upper casing part 3. The upper casing part 3 supports a keypad 5, a liquid crystal display (LCD) 6, a smartcard I VtZIIXIIW 11— f VM reader 7 and a magnetic card reader 8. The upper casing part 3 also provides an enclosure for a roll of either impact or thermal printer paper covered by a flap 9. The flap 9 has an outlet slot 10 for printed paper.

Referring now to Fig 2, the underneath of the terminal 1 formed by the lower casing part 2 has a battery pack chamber 11. It also has interface openings including circular openings 12 for battery charging terminals and a signal interface opening 13 of rectangular shape. The openings 12 and 13 are for use when the terminal 1 is converted for use as a portable terminal in conjunction with a mains-powered desk-top cradle. The lower casing part 2 also provides two merchant card housings 14 (each housing two cards) and a pair of circuit board tabs 15 for holding a control circuit within the lower casing part 2. The tabs 15 are best illustrated in Fig. 3. Finally, the lower casing part 2 comprises a formation, namely recess 16, for mechanical registry with a cradle when used as a portable terminal.

Referring now to Fig 3, detailed construction of the terminal 1 is shown. The terminal 1 has a control circuit 20 which extends along substantially the whole base of the lower casing part 2 and is retained in place by the tabs 15. A modular communication circuit 21 is electrically connected by sockets to the control circuit 20 and is mounted directly above it.

A printer 25 is mounted on a pair of support brackets 26 which allow it to bridge the circuit 20 and 21 and to be easily removed for replacement. The printer 25 may be either of the impact type or the thermal type and indeed these two types are interchangeable. The lower casing part 3 has a pair of vertical guides 27 for the brackets ΪΕ 970208 - 9 26, as shown in Fig 4. A ribbon cable 28 connects the printer 25 to the control circuit 20.

A ribbon cable 30 connects the control circuit 20 to an interface circuit 31 connected to the keypad 5 and to the LCD 6.

As shown in Fig 3, the upper casing part 3 has a curved housing 41 which receives a roll 40 of paper. The side walls align the paper and a guide fin 42 keeps the roll within the housing, even when the roll has been almost fully used. The upper casing part 3 also has a cutting edge 43 for cutting the paper at each transaction. A length 44 is shown diagrammatically as it is being pulled forward to cut it.

Additional support for the upper casing part 3 is provided by a pillar 45 which extends downwardly through an opening in the communications circuit 20 and engages the base of the lower casing part 2.

A blank 46 is inserted in the two battery charging terminal openings 12 and in the signal interface opening 13. The battery chamber 11 is empty and a clip-in Lshaped wall 47 is inserted. This allows exposure of a power supply socket 48.

Power is supplied to the socket 48 by an external switchmode power supply which feeds 6.0V. This is received by a low dropout (LDO) regulator providing 3.OA and 5.0V from a 5.4V minimum input. Thus, the 0.6V excess ensures that despite fluctuations caused by the printer during highcurrent requirement periods, the regulated output is always correct. This avoids problems such as undesired re-setting of the terminal. Further, because there is only approximately 1.0V across the regulator there is II η “7 Λ IQ iJ/UZUO - 10 little heat generation. This latter feature is very important at achieving a compact terminal construction.

Referring now to Fig 4, the manner in which the parts of the terminal 1 are mounted in the lower casing part 2 is illustrated. The control circuit 20 is mounted in the base of the casing part 2 and is retained by the tabs 15. The communication circuit 21 is mounted on top of the control circuit 20. The printer 25 spans both circuits by use of the brackets 26.

It will thus be appreciated that the terminal of the invention has a modular construction in which the upper casing part 3 may be easily removedto allow interchanging of the control circuit or the communication circuit in the lower casing part 2. For production of a counter-top terminal this modularity allows changing functionality of these circuits. For example, the communications circuit 21 may be a modem circuit, an ISDN circuit, or alternatively an RS232 serial interface circuit, each having its own processor where appropriate. Because the printer 25 has its own processor and the control circuit is programmed to interface with any suitable printer processor, the printer may be easily replaced according to customer requirements. Further, the brackets 26 and the guides 27 allow easy mechanical interchanging, and also compactness .

Another advantage of this arrangement is the fact that the terminal may be easily converted from a mains-powered desk-top terminal to a portable terminal for use in a premises such as a restaurant. This is achieved by simply replacing the control circuit by one which does not include circuitry for interfacing with a communication circuit 21 such as an ISDN circuit for on-line communication with an authorisation processor. The new vi / ι 1’inn n V£UO - 11 control circuit 20 will also have a battery charging circuit, IR devices for signal interfacing, and pads for receiving charging current. The change-over also involves replacing the communication circuit with a radio transceiver circuit and insertion of rechargeable batteries in the battery chamber 11. An IR-transparent pane is inserted in the opening 13.

The terminal may then be mounted on a cradle 50 illustrated in Figs 5 and 6. The cradle 50 has a casing 51 having a protrusion 52 for registry with the recess 16 of the terminal 1. It also comprises a pair of springbiased battery charging pins 53 which are connected to a mains-derived power supply circuit within the housing 51. The cradle 50 also has a set of four infra-red light devices 54 mounted behind an IR-transparent pane 59. The cradle 50 has a mains power supply socket, not shown. LED indicators 55 are used to provide power-on and fault indications, and a radio aerial 56 is connected to a transceiver within the cradle 50.

Referring to Fig 6 each pin 53 is mounted in a spring housing 57 in the cradle 50. The IR receiver and emitter devices 54 are mounted beneath an IR-transparent pane 59. These communicate with corresponding IR devices 60 connected in the control circuit 20 and registry above an IR-transparent pane 61. mounted in Finally, conductive discs 62 are mounted in the openings 12.

After the terminal has been re-configured as described above, it is simply placed in the cradle 50 where it is securely seated between the side walls of the casing 51 with the protrusion 52 and the recess 16 in interengagement. Mains power is supplied to the cradle 50 and after rectification is supplied as a charging current via the spring-biased pins 53 and the discs 62 inserted in the - 12 openings 12 of the terminal. This terminal interengagement is self-cleaning and reliable because of the construction of the pins 53 and discs 62 and the fact that they are spring-biased. Microprocessor signals are communicated via the infra-red devices mounted on the control circuit 20 in the terminal which are in registry with the IR devices 54.

It will thus be appreciated that the terminal of the invention may be easily configured for use as a portable terminal. When used in this manner, it receives power supply to recharge batteries and to provide power for desk-top operation via the pins 53. When it is lifted off the cradle 50 such as to be moved to a table in a restaurant the batteries in the chamber 11 provide power and it communicates with the cradle 50 via the transceiver circuits and the aerials. This allows real-time communication with an authorisation processor for card authorisation. When it is replaced on the cradle 50 it is charged via the pins 53 and the IR LED 54 are used for communication. This type of communication is serial, without modulation. Modulation is avoided because of the mechanical configuration whereby ambient light does not access the IR devices. The IR devices also allow off-line use of a portable terminal by providing a channel for subsequent uploading of data to the authorisation processor via the cradle.

Referring now to Figs 7, 8 and 9, the electronic operation of the terminal 1 is described in more detail. The terminal 1 has an overall electronic circuit 70 and like parts in Fig 7 are assigned the same reference numerals. The control circuit 20 has a 16-bit microprocessor 71 which is connected as illustrated to various memory circuits and to the smart card reader 7, the magnetic card reader 8 and the merchant card readers 14. The _. — MM Γ1 IE 97UZUO - 13 microprocessor 71 is connected by a serial link to a separate 8-bit microprocessor 73 in the interface circuit 32. This is connected to the keypad 5, a real time clock, and to the LCD 6. It is also connected to various memory circuits as illustrated.

The microprocessor 73 is in turn connected to a 8-bit microprocessor 74 which controls the printer 25. Another serial link connects the microprocessor 73 to an 8-bit microprocessor 75 of the communication circuit 21. This electronic configuration allows modularity by providing separate microprocessors for printing, and for communications. The serial links are provided by interengaging plugs and sockets. The controlling microprocessors 71 and 73 transmit ASCII serial data to the printer microprocessor 74, in turn buffered and printed. This protocol allow interchangeability of printers. An initialisation string followed by a software protocol corresponding to the dialled host is transmitted to the communication microprocessor 75. The latter opens communication with the host, this being maintained by the microprocessors 71 and 73. Again, this interfacing method allows modularity.

An important aspect of the invention is the simplicity of the parts of the circuit required for reading data from magnetic cards swiped in the card reader 8. As shown in Fig 8, the card reader 8 is connected to the microprocessor 71 by six lines, namely three clock lines and associated data lines. These are indicated by CLK1, Dl, CLK2, D2, CLK3, and D3. The lines are monitored by an AND gate 81.

The manner in which the data is read is now described with reference to the flow chart of Fig 9. Data is read from it y/uzus - 14 the three tracks in an independent manner, as they are not synchronised.

In step 90 the microprocessor 71 receives an interrupt from the gate 81 when a clock signal has gone low. This is indicated by the step 85.

This causes the microprocessor 71 to read all of the bits, both the clock signals CLK1, CLK2 and CLK3, and the data signals, DI, D2 and D3. Referring to the signals 96 shown in Fig 9, the arrows in the clock signal indicate the times when the microprocessor 71 reads all signal levels. The interrupted lines between the clock signal CLK1 and the data signal DI indicate the data levels for each cycle. For a low falling edge in any clock cycle, the microprocessor 71 writes an 8-bit byte 97 also shown in Fig 9. The leading two bits are redundant.

This task is indicated by the step 92 in Fig 9 and is repeated for every low falling edge of any clock signal. This is a very fast and simple operation in which all of the bits are simply buffered to RAM connected to the microprocessor 71. When the card read is complete, in step 94, the microprocessor 71 reads each Byte 97 in turn and eliminates the invalid bits. This is achieved by reading each clock bit in turn and if it has a high value eliminate both the clock bit and the associated data bit. This operation is carried out by a very fast assemblerlevel program and provides for very fast and efficient card reading. The need for complex gate circuitry between the card reader 8 and the microprocessor 71 is avoided, direct connections between the reader 8 and ports of the microprocessor 71 being provided instead. This feature of the invention has been found to be particularly useful at reducing complexity without sacrificing response time. - 15 Referring again to Fig 7, the microprocessor 74 is programmed to control a thermal printer by storing every letter of the alphabet which has a substantial horizontal component such as H, L, E, F, T, and Z before beginning the printing of a line, the microprocessor determines how many such letters are in that line and if above a pre-set threshold of 20 characters, the microprocessor 74 splits printing of the line into six sections. This avoids simultaneous printing by heating an excessive number of heating elements simultaneously which would otherwise cause power supply problems within the terminal. The microprocessor 74 operates in an intelligent manner, receiving only flat ASCII strings from the microprocessor 73. Thus, the printer may be very simply interchanged for upgrading or re-configuring to customer requirements.

It will be appreciated that the portable terminal system of the invention will be very easy for merchant operators to use as it operates in a manner very similar to the mains-powered terminal. This allows easy operator training. Another feature of the portable system is the fact that cost can be kept very low for multiple-portable terminal systems. This is because a single, master, cradle can provide the communication functions for all portable terminals, dummy cradles having charging functions only being provided for each portable terminal.

The invention is not limited to the embodiment hereinbefore described, but may be varied within the scope of the claims in construction and detail.

Claims (20)

1. A unitary point-of-sale terminal comprising:a terminal casing comprising lower and upper inter-engaging casing parts; a keypad, a display, and a printer paper housing in the upper casing part; a transaction card reader; a modular printer removably mounted within the casing adjacent the printer paper housing; a modular communication circuit removably mounted within the casing; a modular control circuit removably mounted in the base of the lower casing part and connected by sockets to the keypad, the display, the printer, the communication circuit, and the card reader, and means in the lower casing part to form openings, whereby the terminal may be converted for portable use by forming the openings and inserting a control circuit having interface components in registry with the openings.

2. A terminal as claimed in claim 1, wherein the keypad, the display, and the printer paper housing are located in-line on the upper casing part and - 17 the casing is of elongate generally rectangular shape in plan in which the length in the direction of alignment of the keypad, display and housing is substantially greater than the width.

3. A terminal as claimed in claim 2, wherein the transaction card reader is a magnetic card reader mounted along one side of the casing for card swiping in the alignment direction.

4. A terminal as claimed in claims 2 or 3, wherein the upper casing part supports a hinged cover for the printer paper housing, said cover having a paper exit slot having a sharp paper-cutting edge.

5. A terminal as claimed in any preceding claim, wherein the printer is removably mounted on support brackets which extend downwardly on either side of the control and communication circuits.

6. A terminal as claimed in any preceding claim, wherein the card reader is a magnetic card reader which is directly connected by clock and data lines to a control processor on the control circuit, and the processor is programmed to automatically store received data bits on all clock and data lines, to eliminate invalid bits after card reading, and to generate the card data using the valid bits after card reading.

7. A terminal as claimed in claim 6, wherein the control processor is programmed to read all clock and data bits when any of the clock lines indicates data transmission, all of the bits for each clock indication being written to a single addressable byte for post-reading processing. 1 / 1 1 JFI »W ZJ I VX.W I t__ IQ

8. A terminal as claimed in claim 7, wherein the control processor is programmed to process the bytes by eliminating all clock bits which do not indicate data transmission, and their associated data bits .

9. A terminal as claimed in claim 8, wherein the control circuit comprises a logic gate connected to the clock and data lines to detect a cardreading indication, and is connected to an interrupt port of the control circuit processor.

10. A terminal as claimed in' any preceding claim, wherein the control circuit comprises means for transmitting to the printer circuit low-level general printing commands indicating only the basic characters to be printed.

11. A terminal as claimed in any preceeding claim, wherein the control circuit comprises means for transmitting an initialisation string followed by a software protocol corresponding to the dialled host to the communications circuit, the communications circuit comprising means for using these signals to establish communication between the control circuit and a host via the communications processor.

12. A terminal as claimed in any preceding claim, further comprising an external switch mode power supply providing a surplus voltage level in excess of 0.5V, and the control circuit comprises a low dropout regulator connected to receive power. - 19

13. A terminal as claimed in claim 12 wherein the power supply is connected to a socket in the casing by a plug having a lock to prevent inadvertent disconnection, the lock being actuated by an outer sleeve of the plug.

14. A terminal as claimed in any preceding claim, wherein the lower casing part comprises a formation for inter-engagement with a corresponding formation of a cradle upon which the terminal may be placed.

15. A terminal substantially as described with referenced to the drawings.

16. A point-of-sale portable terminal system comprising a terminal as claimed in any preceeding claim, wherein:the communication circuit is a wireless transceiver circuit, the terminal has a rechargeable battery power supply, galvanic contacts connected to a battery charging circuit are inserted in openings in the lower casing part, and signal interfacing light emitting and receiving devices are mounted in a signal interface opening of the lower casing part; and the system further comprises a cradle comprising: IE 970208 - 20 a formation for inter-engagement with the formation on the lower casing part for mechanical registry while supporting the terminal; current charging probes for connection to the galvanic contacts of the terminal; light emitting and receiving devices for interaction with the signal light emitting and receiving devices of the terminal; a communication circuit for communication with a remote authorisation processor; and a wireless transceiver circuit for communication with the transceiver circuit of the terminal.

17. A system as claimed in claim 16, wherein the wireless transceiver circuits are radio frequency transceiver circuits, each having a radio antenna.

18. A system as claimed in claims 16 or 17, wherein the cradle comprises a raised peripheral portion forming a seat for the terminal.

19. A system as claimed in any of the claims 16 to 18, wherein the formation on the cradle is a protrusion and the formation on the lower casing part is a corresponding recess.

20. A system substantially as described with reference to the drawings .