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The Psion Organiser is a range of pocket computers developed by the British company Psion in the 1980s.[1] Both the Organiser I (launched in 1984) and Organiser II (launched in 1986) feature a characteristic hard plastic sliding cover protecting a 6×6 keypad instead of a computer keyboard, with letters arranged alphabetically.

The Organiser II competed with the Filofax[1] and can be considered the first usable electronic organizer or personal digital assistant (PDA) in that it combined an electronic diary and searchable address database in a small, portable device.

Production of consumer hand-held devices by Psion has now ceased; the company, after corporate changes, now concentrates on hardware and software for industrial and commercial data-collection applications.

On an episode of The Gadget Show, first aired 30 March 2009, the Psion was pitted against the BlackBerry for a place on the show's Hall of Fame.[2] Whilst the Psion was highly praised as a device that pioneered portable computing, host Jon Bentley ultimately gave the accolade to the BlackBerry.

As of autumn 2024 several software features and hardware devices are still being developed and are available including a JavaScript Emulator, Parallel Interface, USB Commslink, 32 kilobyte (KB) and 256 KB RAMpaks, and 512 KB FlashPak.

Organiser I

[edit]
Psion Organiser I
Psion Organiser I
DeveloperPsion PLC
ManufacturerPsion PLC
Product familyPsion Organiser
TypePocket computer
Generation1
Released1984; 42 years ago (1984)
Introductory price£99 GBP, C$199
Discontinued1986; 40 years ago (1986)
Operating systemno
CPU8-bit Hitachi 6301
Memory2 KB
Removable storage2 Datapaks
DisplayLiquid crystal 1 line
InputKeypad 6×6
Dimensions142 × 78 × 29.3 mm
Weight225 grams
SuccessorPsion Organiser II
LanguageEnglish

Launched in 1984,[3] the Psion Organiser was the "world's first practical pocket computer".[4] Based on an 8-bit Hitachi 6301-family processor, running at 0.9 MHz, with 4 KB of read-only memory (ROM) and 2 KB of static RAM and has a one-row monochrome liquid crystal display (LCD) screen. The size with the case closed is 142 × 78 × 29.3 mm, and the mass is 225 grams.

A Byte reviewer described the Organiser's software as a "clever design ... for fast and foolproof use". He approved of the consistent user interface across applications and reported that without documentation he was able to learn how to do everything except program in 15 minutes.[3] The machine provided a simple flat-file database, calculator and clock, and had no operating system (OS). The Organiser I supported removable storage write once read many (write-once) devices, which used erasable programmable read-only memory EPROM storage. The device can host two of these, named Datapaks (stylized as DATAPAK, or simply PAK), to which it can write data, but which must be removed from the device and erased by exposure to ultraviolet light before they can be re-used. As Psion had patented the use of EPROMS as a storage device, it was impossible for other device makers to copy this unusual approach to mobile storage.

Software supplied on Datapak included a crude programming language named POPL, in which end-users could write their own programs.[3] Software Datapaks titled Science, Maths and Finance contained the POPL programming language editor, interpreter and runtime system and extended the built-in calculator by adding named functions. These Datapaks also contained different sets of application software written in the POPL language.

A far more sophisticated programming tool was later made available with the implementation of the Forth language, but was available to registered professional developers rather than end users. The Psion Forth Development System for the Organiser I was a powerful set of IBM PC-based cross-development tools for producing Forth application software, including a Forth compiler. The Forth system on the Organiser I had a compiler to intermediate code, interpreter and runtime, and had several unusual design features one being that it could interpret – that is, read and execute – Forth intermediate code directly in place on a Datapak, rather than needing to copy it into precious RAM first, despite the Datapaks not being execute-in-place memory-mapped.

Software developed by Psion as part of the Organiser I project, and application software after its launch, was written in 6301 assembly language, in POPL, and in other custom-designed languages. Assembly language development at Psion was carried out using cross-development tools, including a cross assembler and linker, all of which ran on a Digital Equipment Corporation (DEC) VAX.

Application developers writing in 6301 assembly struggled with the small amount of RAM (2 KB) and the lack of an operating system. Another difficulty for developers was with the performance limits of the earliest Datapaks, which used a serial-access internal architecture, instead of random access. Retrieving, for example, byte 2000 from a Datapak meant issuing successive hardware commands to either step from the current read position one address place at time until position 2000 was reached or, in the worst case, resetting the read position to zero and then issuing a step-forward command 2000 times.[citation needed]

The Hitachi 6301 processor is an enhanced development based on the Motorola 6801 implemented in complementary metal–oxide–semiconductor (CMOS), with several extra instructions, various hardware system on a chip (SoC) facilities on-chip, power management and support for a sleep state. The particular variant chosen also had 4 KB of masked ROM on-chip, so an external ROM was unneeded on the board.

Having fully static RAM and a processor which clock could be frozen without losing state meant very long battery life, measured in weeks or even months. Minimal power use was aided by the processor being frozen whenever there was no work to do, plus a deeper sleep mode, which turned off the display.

The machine lacked a full independently battery-backed, date-time real-time hardware clock, instead it had a simple hardware counter. While the machine was sleeping, the counter counted 1,024 seconds and then woke the machine very briefly, so that software could add 1,024 seconds to a record of the time held in RAM. This meant that when sleeping the machine woke very fleetingly every 17 minutes 4 seconds.

The original 1984 price was £99 GBP or $199 CAD and included one Datapak and one software Datapak, the Utility pack. This latter adds scientific and trigonometric functions to the otherwise basic calculator routines.

Organiser II

[edit]
Psion Organiser II
Psion Organiser II
DeveloperPsion PLC
ManufacturerPsion PLC
Product familyPsion Organiser
TypePocket computer
Generation2
Released1986; 40 years ago (1986)
Discontinued1996; 30 years ago (1996)
Units sold500,000+
Operating systemSingle-tasking
Memory8, 16, 32, or 64 KB
Storage8–128 KB
DisplayLiquid crystal 2 line
InputKeypad 6×6
ConnectivityRS-232 port CommsLink
PredecessorPsion Organiser I
SuccessorPsion Series 3
LanguageEnglish
Psion Organisers
Organiser II with cover
Organiser II (open and closed); models XP & LZ shown on 5 cm squares
Memory modules for the Organiser (on 5 cm squares)

In 1986, the successful Organiser II introduced many hardware improvements, a better keyboard and display, a much larger ROM and either 8 KB (CM Model), 16 or 32 KB (XP Model), 32 or 64 KB (later LZ Model) of battery-backed RAM, and featured a capable newly designed single-tasking operating system. The first Organiser II models featured a two-line display. The new model supported several different types of improved Datapaks, containing either EPROM or battery-backed RAM storage, each storing between 8 KB and 128 KB of data. Later electrically erasable programmable read-only memory (EEPROM) flashpaks, and random-access memory (RAM) RAMpaks, were added to the range, able to store up to 256 KB on each extension slot.

The machine had far more application functionality, including many built-in application programs, an easy-to-use database, a diary, and an alarm clock, and featured end-user programmability in the form of the successful then-named Organiser Programming Language (OPL), a BASIC-like language, which was compiled to intermediate code, in contrast to the interpreters, which were commonly available for other consumer computers of the time. More advanced users could edit the system machine-code routines, either by direct machine code or by calls from OPL, could manipulate the built-in address database, and create their own.

The Organiser II was widely used for commercial applications in companies such as Marks & Spencer, where it was used on the shop floor, with their branding instead of Psion's and with only limited keys visible to the end user. It was also used in the world's first large-scale application of mobile technology in government, where over 3,000 were used for benefit calculations by the Employment Services department of the UK government. It proved popular with surveyors who interfaced it with electronic theodolites, which proved to be the precursor to the now popular total station.

The Organiser II also had an external device slot, into which various plug-in modules could be fitted, including a device that provided an RS-232 port (named CommsLink), thus enabling it to communicate with other devices or computers. This top slot also supported various other hardware additions, such as telephone dialers, a speech synthesiser, barcode reader, and a dedicated thermal printer. This latter was used by several banks as a counter-top exchange-rate calculator for some years. As it was easy to get hardware specifications, many bespoke devices were developed by small companies such as analog-to-digital converters (A/D) and even an interface to the full range of Mitutoyo measuring equipment, allowing it to be used in quality control for various car manufacturers. Later models in the Organiser II range offered other hardware improvements, with 4-line displays, and also models were introduced with 32, 64 and 96 KB RAM.

Post production enthusiasts and developments

[edit]

In the autumn of 1996, when Psion PLC had moved their focus away from the Organiser II onto the newer clamshell series devices (below) and had almost ceased support for the Organiser II, Dave Woolnough created the Psion Organiser II Homepage [5] to fill the gap, stating "Considering that more than 500,000 series II Organisers were produced, there must be many people still using this wonderful machine". The original Org2.com[6] In the summer of 1997, Jaap Scherphuis joined the site as software specialist and soon became fully responsible for maintaining the web pages on a day-to-day basis. Dave wrote about Scherphuis "A Remarkable Psion Programmer". The Psion 2 archive had a large proportion of programmes written by Scherphuis, many written in machine code. In the spring of 2002 Boris Cornet took over as site maintainer/editor. Later that year he replaced the chat (bulletin board) with the now defunct Psion Organiser II Forum. When he died in 2012, the administrative duties for the forum were taken over by a power user MIKESAN who ran it until the spring of 2020 when he developed a terminal illness and the site became inaccessible. In January 2021 Olivier Gossuin, a Belgian enthusiast, launched a new Organiser II User Forum which in turn became inaccessible in 2022. In January 2023 a Canadian enthusiast Yves Martin provided space on his business server for a replacement forum with a long time enthusiast Martin Reid helping with the administration.[7]

Another legacy that Boris Cornet left Organiser II users is Psi2Win, the Windows PC comms link server. This Windows-friendly server was developed using Jaaps' reverse engineered comms link protocol. Boris always considered his Comms Server Psi2Win to be in permanent state of 'beta testing' but with his sad passing it is no longer being developed. With this in mind the author of ORG-link has further developed and released ORG-Link_V2 an Organiser II Comms Link Server that works in all Windows versions 32 and 64 bit. In the winter of 2013, Jaap created his web site [8] with the aim "to be an archive of Psion Organiser II information and software that might otherwise be abandoned and lost". Hardware developments have continued with Organiser II Forum enthusiasts creating periferals such as microUSB CommsLink, 256 KB RAMPak, 512 KB FlashPak, and microUSB Power Supply. These, with other Organiser II hardware and software, are still available from the West Yorkshire Psion Store. Massimo Cellin created the Psion Facebook group in the autumn of 2015, servicing all the Psion products including the Organiser II. Members of the Facebook group include the former editor of IPSO FACTO, the 1980s and 1990s newsletters of the International Psion Pocket Computers User Group, copies of which are still available from Scherphuis' archive.[9]

Table of models

[edit]
Psion Organiser I/II models
Model Year RAM
(KB)		 ROM
(KB)		 CPU Clock
(MHz)		 Display Datapak*
(KB)		 Use Calculator to find version
I 1984 2 4 6301 0.9 16×1 16 CALC:PEEKB(-24)
II CM 1986 8 32 6303 0.9 16×2 64 0 = CM 8K
II XP 1986 16 32 6303 0.9 16×2 2048 1 = XP 16K
II LA** 1986 32 32 6303 0.9 16×2 2048 2 = XP 32K
II LZ 1989 32 64 6303 0.9 20×4 2048 14 = LZ 32K
II LZ64 1989 64 64 6303 0.9 20×4 2048 13 = LZ64 64K

* Maximum size of Datapak supported. Although it looks like the operating system might be able to recognise 2048K the largest pack size currently available from the Psion eBay store is RAM Pack 256K or Flash Pack 512K
** LA model still carried the XP label on its casing

In addition to the above, many other industrial, one-off and special edition models were released, including a special edition with transparent housing. Some of these models have radically different keyboard layouts.

Subsequent hand-held devices

[edit]

The name "Organiser" was not used for later Psion handhelds, such as the SIxteen-Bit Organiser (SIBO) family Psion MC400 laptop, the Psion Series 3 and the 32-bit Psion Series 5 machines, which were of a clamshell design with a QWERTY keyboard. As to hardware architecture and operating system, these had no links to the earlier Organiser range, other than the end-user programming language, which shared a great deal of structure with OPL.

The SIBO family, and the improved version of the OPL language (with window and focus controls), was replaced in 1997 by a new ARM architecture-based operating system EPOC32 written in C++; the latter was later sold as the Symbian operating system, which until 2010 was the most widely used OS in smartphones, being in 2011 displaced by Google's Android OS.[10] This change was more significant than appeared at the time. The consumer-grade high-level programming language still shares features with OPL, but the developer toolkits were from then on focused on programmers familiar with C and only the Symbian operating system remains.

The first similar device made in the USA did not appear until 1985 and was manufactured by Validec.[11]

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Psion Organiser

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from Grokipedia
The Psion Organiser was a pioneering series of pocket computers developed by the British technology company Psion, functioning as one of the earliest personal digital assistants (PDAs) and revolutionizing portable computing in the . Launched in , the inaugural model, the Organiser I, was marketed as the "world's first practical " and featured a compact design measuring 142 x 78 x 29.3 mm and weighing 225 grams, with a hard plastic sliding cover protecting a 6x6 alphabetical keyboard and a single-row monochrome LCD display. Powered by an 8-bit 6301-family processor running at 0.9 MHz, it included 4 KB of ROM and 2 KB of static RAM, alongside built-in applications such as a for organizing information, a , and a clock, but lacked a traditional operating system. Storage was handled via innovative removable DATAPAK cartridges—EPROM-based modules that were write-once and erasable with ultraviolet light—patented by Psion, which supported two such slots for expansion with additional software like science, maths, and finance utilities written in the device's bundled POPL programming language. The series evolved with the Organiser II, released in 1986, which upgraded to a HD6303XFP (also at 0.9 MHz), offered RAM options from 8 to 64 KiB in variants such as the CM, XP, and LZ models, and introduced a two- or four-line LCD display along with an improved keyboard for better ; over a million units were sold. This model expanded functionality to include alarms, an , , search tool, and , while retaining the DATAPAK system and adding an expansion connector for peripherals like interfaces and readers; it also featured a BASIC-like OPL programming language for custom applications and a flat database system with drive letters (A:, B:, C:). The Organiser line's durability, portability, and customization options made it a popular alternative to paper-based organizers like the , achieving commercial success and laying foundational influence on the PDA market. Historically, the Psion Organiser laid foundational groundwork for , with its software architecture and conventions—such as drive letters—inspiring Psion's later EPOC operating system, which evolved into , a dominant mobile OS in the through partnerships with companies like , , and . The Organiser II was discontinued around 1992, as Psion shifted focus to more advanced PDAs, eventually exiting the PDA market in 2001 following its 2000 merger with Teklogix and being acquired by in 2012.

History and Development

Origins and Organiser I Launch

Psion was founded in 1980 by David Potter in as Potter Scientific Instruments, initially concentrating on software development for the burgeoning market. The company began by identifying gaps in available software and publishing programs from independent developers, such as a chess application for Z80-based machines, under a royalty model that offered creators 12% of sales. This software-centric approach allowed Psion to build expertise and networks with early pioneers, including and , while researching trends in microcomputers like the Acorn Atom. The development of the Organiser stemmed from Potter's vision, inspired by the microprocessor revolution of the , to create a truly portable electronic device that could supplant traditional paper diaries and notebooks. Potter viewed the as a transformative akin to a major artistic movement, providing an opportunity to innovate in personal computing amid rigid established markets. Psion shifted toward hardware to address the need for compact, battery-powered tools that leveraged emerging advances for everyday organization and computation, marking their entry into . The Psion Organiser I launched in 1984, positioned as the world's first practical pocket computer, combining calculator functions with electronic organization capabilities in a handheld form. It retailed for £99 in the UK and C$199 in Canada, including essential storage and utility software modules. Initial reception was positive, with reviewers praising its portability, innovative solid-state storage via patented Datapak modules, and versatility for tasks like database management and scheduling, though some noted minor ergonomic limitations in the keyboard. Early sales reached 2,000 units within the first eight months, with production scaling to 3,000 units per month by early 1985, indicating growing market acceptance. A pivotal design choice was the selection of the 6301 CPU, an 8-bit processor derived from the 6801, prized for its low power consumption—enabling extended battery life in a compact form—and integrated peripherals that minimized component count for portability. This decision, informed by development on Hitachi consoles using , supported Psion's goal of a self-contained, energy-efficient device suitable for mobile use.

Organiser II Introduction and Production Timeline

The Psion Organiser II was launched in 1986 as a direct successor to the original Organiser I, introducing significant hardware improvements such as an enhanced keyboard, larger capacities, and expanded software capabilities to better serve users. Designed primarily for the commercial office environment, it quickly became a commercial success, with sales exceeding £10 million in its initial years and reaching a milestone of 500,000 units sold by late 1990. This rapid adoption was driven by its portability, durability, and utility as a digital alternative to paper-based organizers like the , particularly among European professionals for tasks such as contact management and scheduling. Production of the Organiser II evolved through several variants to address user demands for greater storage and usability. The initial 1986 models included the base CM with 8 KB RAM and 32 KB ROM, alongside the XP offering 16 KB RAM (later upgraded to 32 KB) and up to 64 KB ROM in multilingual versions, all featuring a two-line LCD display. In 1989, the LZ model was introduced with 32 KB RAM and 64 KB ROM, providing expanded internal storage for more complex applications. By 1989, further enhancements appeared in the LZ64 variant, boasting 64 KB RAM and a four-line by 20-character display for improved readability, along with the CM model's adaptation to the larger screen in some configurations. These iterative upgrades in ROM and RAM capacity—ranging from 32 KB to 64 KB—allowed the device to handle larger datasets without relying heavily on external modules, while maintaining compatibility across the series. By the early 1990s, the Organiser II faced increasing competition from emerging PDAs, notably Apple's Newton launched in 1993, which introduced and more advanced features, though the Psion maintained strong sales in for business-oriented use due to its reliability and lower cost. Production continued through the decade, but Psion began shifting focus in 1991 with the introduction of the Series 3, a clamshell-design PDA that offered even greater portability and processing power, leading to the Organiser II's gradual phase-out by around 1996 as dwindled and support tapered. Post-1990s, Psion strategically pivoted from consumer organizers toward industrial tools, emphasizing rugged devices for enterprise applications like management and field , culminating in the company's exit from the consumer PDA market in 2001.

Hardware Design

Organiser I Specifications

The Psion Organiser I utilized an 8-bit HD6301 processor clocked at 0.9 MHz, providing sufficient performance for its era's personal organizer functions while maintaining low power draw. This CMOS-based CPU enabled efficient operation within the device's constrained form factor, handling tasks like and simple calculations without the need for more complex architectures. configuration included 2 KB of battery-backed static RAM for user data storage and 4 KB of ROM containing the core operating system and built-in applications. Expansion was achieved through two Datapak slots, allowing additional read/write modules up to 8 KB per slot, though the base unit relied solely on internal resources for standalone use. The display consisted of a single-line monochrome dot-matrix LCD capable of rendering 16 alphanumeric characters, sufficient for viewing entries or prompts in a compact view. Input was managed via a 6×6 comprising 36 keys, featuring an alphabetical layout for letters (A-Z) accessed directly, with numbers and symbols shifted via a dedicated key; this design prioritized ease of text entry over full arrangement. Power was supplied by a single 9 V PP3 , which delivered extended runtime due to the device's low consumption—approximately 0.2 mW in standby and 40 mW when active—potentially lasting several months under light use. The unit measured 142 × 78 × 29 mm when closed and weighed 225 g including the battery, making it highly pocketable for standards. Connectivity options were limited to the two rear Datapak slots for inserting storage or peripheral modules, with no integrated serial or other ports; expansions like printers or modems required compatible Datapak adapters.
ComponentSpecification
Processor8-bit HD6301, 0.9 MHz
Memory2 KB RAM, 4 KB ROM
Display1-line LCD, 16 characters
Keyboard36-key membrane, 6×6 grid
Power9 V PP3 battery, low-power
Dimensions142 × 78 × 29 mm
Weight225 g (with battery)
Connectivity2× Datapak slots for expansion

Organiser II Models and Variants

The Psion Organiser II, introduced in 1986, featured several hardware variants designed to cater to different user needs, ranging from basic personal organization to more advanced communication and programming tasks. All models shared a core architecture built around the HD6303X 8-bit operating at 0.9216 MHz, enabling efficient low-power performance suitable for portable use. This processor supported the device's modular expansion system, distinguishing the Organiser II from the more limited fixed-design of the Organiser I. Memory configurations varied significantly across variants, with base RAM ranging from 8 KB in the entry-level CM model to 64 KB in the high-end LZ64, allowing for increased and application capacity without external modules. ROM sizes were 32 KB or 64 KB, housing the operating system and built-in applications. All models supported expansion via two internal slots for interchangeable modules, such as Rampaks adding up to 32 KB of RAM each (for a potential total of 128 KB RAM including internals in higher-end configurations) or Datapaks for ROM-based storage up to 128 KB per module. The display and input mechanisms were upgraded in later variants for improved usability. Early models like the CM and XP used a two-line LCD with 16 characters per line, while the LZ and LZ64 advanced to a four-line display with 20 characters per line, providing more on-screen information at once. The keyboard across all variants consisted of 36 multifunction keys in a compact QWERTY-inspired layout, including alphabetic, numeric, cursor, and mode-shift capabilities, with tactile feedback and auto-repeat functionality. Power was supplied by a single 9V PP3 , offering up to three months of typical use or eight months in standby mode, with low-power design features like clock freezing to extend battery life. The physical build was consistent: dimensions of 142 × 78 × 29 mm and a weight of approximately 250 g (including the protective sliding case but excluding the battery).
ModelRelease YearRAM (Base)ROM (Base)DisplayKey Features
CM19868 KB32 KB2 lines × 16 charsTargeted at basic diary and database use; via external Comms Link expansion.
XP1986 (upgraded 1987)16–32 KB32 KB2 lines × 16 charsEntry-level expandable model; initial 16 KB RAM version quickly superseded by 32 KB for broader application support.
LZ198932 KB64 KB4 lines × 20 charsEnhanced display for multitasking; included additional ROM space for utilities like .
LZ64198964 KB64 KB4 lines × 20 charsHighest capacity variant; supported larger databases and OPL programs, equivalent to about 10,000 words of storage.
These variants evolved the Organiser II lineup to balance portability with functionality, with the CM emphasizing basic use and expansion connectivity, while the LZ series prioritized memory and screen real estate for power users.

Software Ecosystem

Built-in Applications

The Psion Organiser I featured a suite of core built-in applications designed for basic personal organization and productivity, centered around text-based tools accessible via a simple menu-driven interface navigated through its 6x6 keyboard. The primary application was a , allowing users to store and retrieve records such as contacts or notes using the SAVE and FIND functions; each record could hold up to 200 characters, with limits depending on record size; an 8 KB Datapak holds up to 10,900 characters total, allowing roughly 50-500 entries depending on average record length, and search capabilities supported clues up to 15 characters with wildcard options for partial matches. Supporting this were a basic capable of handling arithmetic operations, decimals, exponential notation, and expressions up to 200 characters with two levels of brackets, limited to 7 digits per number; a clock for displaying and setting time in 24-hour format along with the date; and a simple diary implemented through the database for logging appointments or notes, though without dedicated scheduling views or alarms. Data was stored in the device's 2KB RAM or on removable 8KB Datapaks holding up to 10,900 characters total, with all output restricted to a single-line LCD screen for text-only display. The Organiser II expanded these applications significantly, introducing enhanced functionality while retaining the menu-driven keyboard navigation and text-only interface, with data managed across internal RAM (8-64 KB depending on model), ROM for the OS, and Datapaks/Rampaks for up to 128KB storage per module. The database was improved to support multiple files (via Xfiles), records up to 254 characters across 16 lines, sorting (alphabetical, requiring double the file size in RAM), and advanced searching with wildcards (* for groups, + for singles), enabling efficient management of contacts, notes, or custom data sets. The diary evolved into a dedicated scheduling tool with week and day views, up to four customizable time slots per day, entry lengths of 64 characters, and options to find, copy, move, delete, or tidy entries, all savable to external storage. Alarms were newly integrated or expanded, offering up to eight programmable slots with types including once, hourly, daily, weekly, or workday, featuring audible alerts that functioned even when the device was off and advance warnings up to 59 minutes for diary events. Additional productivity tools in the Organiser II included a more capable with 10 memory registers (M0-M9), support for , up to 12 decimal places, and OPL-callable functions like trigonometric operations (, COS), statistical lists (SUM, ), though without a direct percentage key. The clock application was augmented with world support, allowing manual adjustments for international locations and automatic date handling, including . A telecoms database provided built-in international dialling codes and time differences, facilitating global communication tasks without external aids. Notepads offered simple text storage for lists, with sorting, numbering, summation via integration, and password protection for . These features emphasized practical, non-graphical utility, with common limitations across models including no visual icons or images, reliance on audible beeps for alarms, and data loss risks from low batteries during unsaved operations.

OPL Programming Language

The Organiser Programming Language (OPL) originated as POPL (Psion Organiser Programming Language) on the Organiser I, a rudimentary interpreter provided on optional Datapak software modules such as those for , maths, and applications. This early version allowed users to extend the device's with custom named functions but lacked advanced structures, relying on simple procedural scripting for basic tasks like data manipulation. With the Organiser II's release in 1986, OPL evolved into a more robust, BASIC-like optimized for the device's database-centric architecture, enabling directly on the hardware without requiring separate modules. OPL's syntax emphasized procedure-based organization, where programs comprised multiple callable procedures that could pass up to 16 parameters and support for modular code development. Key features included control structures like IF/ELSEIF/ELSE/ENDIF for conditionals, WHILE/ENDWH and DO/UNTIL loops for , and built-in commands for file such as OPEN, CREATE, , FIRST, and NEXT to handle database records efficiently. Variable types encompassed integers (ranging from -32768 to 32767), floating-point numbers (from ±1E-99 to ±9.99999999999E99), and strings up to 255 characters, declared as or GLOBAL for scope management. Integration with the Organiser's built-in applications was seamless, allowing OPL code to invoke database functions or system services like alarms via commands such as RM$RUNP, facilitating custom extensions to core features. Programs were developed and edited directly on the device using its 4-line LCD interface, with the language translator converting OPL source into compact Q-code for execution on the HD6303X processor. Storage occurred on Datapak cartridges, typically limited to 32 KB per program due to memory constraints, though larger expansions up to 128 KB were possible; representative examples included custom alarm setters that interfaced with the diary app or data importers for populating databases from external sources. OPL manuals, detailing syntax and examples, were included with Organiser II devices to encourage user programming. Early POPL implementations on the Organiser I were restricted to integer-only arithmetic, lacking floating-point support and advanced math functions, which limited applications to basic integer-based calculations and database operations. In contrast, Organiser II's OPL addressed this by incorporating floating-point capabilities and functions like SIN, COS, and SQR, though overall limitations persisted, such as a maximum of eight nested loops, four simultaneously open files, and no automatic type conversion between strings and numbers (requiring explicit functions like VAL or NUM$). These constraints reflected the era's hardware realities but still empowered users to create tailored utilities for professional database management.

Expansions and Accessories

Storage Modules

The Psion Organiser series utilized removable storage modules inserted into dedicated 32-pin IC slots to expand memory beyond the internal 2 KB RAM of the Organiser I and 8-64 KB RAM of the Organiser II models. These modules provided essential data persistence and program storage in an era before integrated high-capacity drives, with two slots available on each device for simultaneous use. Datapaks served as the primary non-volatile ROM cartridges for permanent storage of applications and data files, available in capacities ranging from 8 KB to 128 KB. Based on EPROM technology, they required external ultraviolet light exposure for erasure and reprogramming, making them ideal for backups and infrequently modified content like OPL programs and databases. These modules consumed low power during operation (<8 mA standby) and were compatible with both Organiser I and II, though the latter's paged addressing scheme enabled faster access to larger sizes. In contrast, RAMpaks offered volatile RAM expansions up to 128 KB official (with third-party variants reaching 512 KB), relying on an internal lithium battery for even when removed from the device. Designed for temporary or frequently edited data such as active databases, they drew minimal current (<1 mA standby) but lost contents without battery power, necessitating careful handling for portability. Compatibility spanned both Organiser models via the standard slots, allowing users to swap modules for data transfer without base-model PC connectivity. Introduced circa 1990 for the Organiser II, Flashpaks provided rewritable non-volatile storage akin to early , with official capacities from 128 KB to 256 KB (third-party up to 512 KB) and no battery requirement. These EEPROM-based modules allowed in-device erasure and reformatting using dedicated software loaded from a second pack, facilitating efficient storage of OPL programs and dynamic databases. They offered faster write speeds (10 µs/byte) and lower power use than Datapaks, but were incompatible with the Organiser I and certain II variants like the CM model. Overall, these modules enabled modular data management through physical swapping, supporting professional workflows in fieldwork without reliance on external links.

Peripheral Devices

The Psion Organiser II supported a range of peripheral devices that expanded its utility for communication, data input, and output, primarily through the 16-pin top expansion slot. These add-ons enabled integration with external systems, making the device suitable for professional fieldwork. The Comms Link module, inserted into the top slot, provided serial connectivity for the Organiser II, allowing connections to personal computers, modems, and printers at baud rates from 300 to 9600. This module featured a 25-pin D-type connector and supported protocols like XMODEM for error-checked file transfers, with handshaking via RTS/CTS or XON/XOFF. For data transfer to PCs, official cables paired with the Psi2Win software on IBM-compatible systems facilitated backup and synchronization of files, including OPL programs. Printer modules extended output capabilities, with the official Psion Printer II offering on special paper rolls and enveloping the device for portability; it accepted top-slot insertions like the Comms Link for combined functionality. Third-party options, such as the Extech Comms Printer II, provided dot-matrix with ink ribbons for more durable receipts. These printers drew significant power, up to 600mA at 10.4V, often requiring a mains adaptor to avoid rapid battery depletion. Input peripherals included readers, typically wand-style or pistol-grip devices from manufacturers like , which plugged into the top slot and decoded various symbologies for rapid data entry. Combined units like the Dynasys Barcomm 2 integrated scanning with dual ports for versatile field use. connectivity relied on the Comms Link paired with an external adaptor, supporting dial-up access at rates like 1200 for remote data transmission; third-party dialers, such as the Widget or Extech Comms , allowed direct phone line integration, sometimes with optional attachments. Specialized modules included the IC , often integrated into printers like the Psion Printer II variant or standalone units such as the Harvester S.A.M.S. for swiping magnetic stripe cards in financial or attendance applications. The speech module, produced by Rovoreed, converted text to spoken English using synthesis and included a 3.5mm audio jack for output. Most peripherals drew power from the Organiser II's 9V battery, increasing overall consumption by 20-50% during active use depending on the module, which limited continuous operation without external charging. In field applications, such as retail scanning, these devices enabled efficient capture and transfer, boosting in sectors like warehousing and .

Commercial Applications and Legacy

Professional Uses and Market Impact

The Psion Organiser II found significant adoption in professional environments, particularly within retail and government sectors, where its portability and programmable features facilitated on-site data management. , a major retailer, deployed customized Organiser II units for shop floor operations, including rapid price lookups and inventory tracking at checkouts. The Department of Services integrated the device into administrative workflows for benefit calculations, leveraging its database capabilities to streamline governmental processes. firms also utilized the Organiser II in the field, interfacing it with electronic distance measurement tools to record and process land survey data efficiently. Custom applications developed in the Organiser's OPL programming language further enhanced its utility for tasks, such as stock control systems in retail and expense tracking for field professionals, often paired with modules for quick data capture and with central databases. These tools reduced manual record-keeping, promoting digital workflows in environments previously reliant on -based systems. In terms of market impact, the Organiser II became a dominant player in the European market during the late 1980s, with monthly production scaling to 14,000 units by early 1988, reflecting strong demand among professionals. Priced accessibly at £139 for mid-range models like the XP, it appealed to users and contributed to broader efficiencies by minimizing usage for diaries, contacts, and reports. However, practical challenges emerged, including battery life constraints—typically lasting 2-6 months under normal use but draining faster with peripherals during extended field operations—and growing competition from more powerful portable laptops by the early , which offered expanded capabilities and better integration with desktop systems.

Community Developments and Influence

The Psion Organiser has sustained a dedicated enthusiast community into the 2020s, with active online forums serving as hubs for discussion, troubleshooting, and resource sharing. The Organiser II Forum at organiser2.com, established by enthusiasts including Yves Martin, features ongoing threads on maintenance, software preservation, and modern integrations, with posts continuing through 2024 and into 2025. Community members have developed hardware modifications to bridge the device's 1980s-era interfaces with contemporary technology, such as the Arduino Nano-based USB interface introduced in 2022, which connects to the Organiser II's data bus via resistors and enables data transfer without original RS-232 hardware. Emulation efforts have preserved the Organiser's software ecosystem, allowing OPL code and applications to run on modern platforms. Jaap Scherphuis' Jape, a JavaScript-based released around 2017 and still accessible, supports nearly all Organiser II models, including snapshot functionality and virtual datapak loading for testing custom procedures. Complementary tools like Scherphuis' OPK File Editor facilitate creating and editing software packs, while his archived site hosts datapak images and documentation from the device's era, such as 1989 flight simulation software. These resources enable hobbyists to experiment with OPL without physical hardware, filling gaps left by discontinued original accessories. Post-production innovations include custom adaptations and participation in retro computing events. Enthusiasts have produced 3D-printed enclosures for mods like the USB interface, enhancing usability for collectors. While official custom ROMs are rare, emulators support modified firmware images for extended functionality. Community gatherings, such as the 2024 Festival of Portable Computing organized by the Centre for Computing History, showcase Organiser devices alongside other early PDAs, fostering knowledge exchange among retro enthusiasts. The Organiser's database-centric design and programmable features influenced subsequent Psion products and broader . It directly paved the way for the 1991 Series 3, which adopted a clamshell form factor and expanded memory while building on the Organiser's software foundations, eventually leading to the EPOC operating system in the Series 5. EPOC evolved into OS through a 1998 with , , and , powering millions of smartphones and emphasizing multitasking and data management that echoed the Organiser's innovations. Despite its technical legacy, the Organiser saw limited due to intense competition from devices like the Palm Pilot and insufficient marketing focus beyond . Psion ceased official support for the Organiser series around 1996 as resources shifted to newer models, leaving no manufacturer-backed updates or repairs since then. The enthusiast community has since addressed these voids through open-source emulations and DIY hardware, ensuring the device's accessibility for preservation and experimentation.

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