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TI-92 series
TI-92 series
TI-92 series
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TI-92
The original TI–92
TypeProgrammable Graphing
Introduced1995
Discontinued1998
Latest firmware1.12
SuccessorTI-92 Plus
Calculator
Entry modeD.A.L.
Precision14
Display typeLCD Dot-matrix
Display size240x128
CPU
ProcessorMotorola MC68000
Frequency10MHz
Programming
Programming language(s)TI-BASIC
Memory register68 kB RAM
Other
Power supply4 AAs,
1 CR2032
Weight493 grams (17.4 oz)
Dimensions119 mm × 208 mm × 30 mm (4.7 in × 8.2 in × 1.20 in)
TI-92 II
TI-92 II
TypeProgrammable Graphing
Introduced1996
Discontinued1999
Latest firmware2.1
SuccessorTI-92 Plus
Calculator
Entry modeD.A.L.
Precision14
Display typeLCD Dot-matrix
Display size240x128
CPU
ProcessorMotorola MC68000
Frequency10MHz
Programming
Programming language(s)TI-BASIC
Memory register128 kB RAM
Other
Power supply4 AAs,
1 CR2032
Weight493 grams (17.4 oz)
Dimensions119 mm × 208 mm × 30 mm (4.7 in × 8.2 in × 1.20 in)

The TI-92 series are a line of graphing calculators produced by Texas Instruments. They include: the TI-92 (1995), the TI-92 II (1996), the TI-92 Plus (1998, 1999) and the Voyage 200 (2002). The design of these relatively large calculators includes a QWERTY keyboard. Because of this keyboard, it was given the status of a "computer" rather than "calculator" by American testing facilities and cannot be used on tests such as the SAT or AP Exams while the similar TI-89 can be.[1][2]

TI-92

[edit]

The TI-92 was originally released in 1995, and was the first symbolic calculator made by Texas Instruments. It came with a computer algebra system (CAS) based on Derive, geometry based on Cabri II, and was one of the first calculators to offer 3D graphing. The TI-92 was not allowed on most standardized tests due mostly to its QWERTY keyboard. Its larger size was also rather cumbersome compared to other graphing calculators. In response to these concerns, Texas Instruments introduced the TI-89 which is functionally similar to the original TI-92, but featured Flash ROM and 188 KB RAM, and a smaller design without the QWERTY keyboard. The TI-92 was then replaced by the TI-92 Plus, which was essentially a TI-89 with the larger QWERTY keyboard design of the TI-92. Eventually, TI released the Voyage 200, which is a smaller, lighter version of the TI-92 Plus with more Flash ROM. The TI-92 is no longer sold through TI or its dealers, and is very hard to come by in stores.

TI-92 II

[edit]

The TI-92 II was released in 1996, and was the first successor to the TI-92. The TI-92 II was available both as a stand-alone product, and as a user-installable II module which could be added to original TI-92 units to gain most of the feature improvements. The TI-92 II module was introduced early in 1996 and added the choice of 5 user languages (English, French, German, Italian and Spanish) and an additional 128k User memory. Along with the TI-92, the TI-92 II was replaced by the TI-92 Plus in 1999, which offered even more Flash ROM and RAM.

TI-92 Plus

[edit]
TI-92 Plus
TI-92 Plus
TypeProgrammable Graphing
Introduced1998
Discontinued2006
Latest firmware2.09
PredecessorTI-92/TI-92 II
SuccessorVoyage 200
Calculator
Entry modeD.A.L.
Precision14
Display typeLCD Dot-matrix
Display size240x128
CPU
ProcessorMotorola MC68000
Frequency12MHz
Programming
Programming language(s)TI-BASIC
Memory register188 kB RAM
702 kB flash memory
Other
Power supply4 AAs,
1 CR2032
Weight493 grams (17.4 oz)
Dimensions119 mm × 208 mm × 30 mm (4.7 in × 8.2 in × 1.20 in)

The TI-92 Plus (or TI-92+) was released in 1998, slightly after the creation of the almost-identical (in terms of software) TI-89, while physically looking exactly like its predecessor, the TI-92 (which lacked flash memory). Besides increased memory over its predecessor, the TI-92 Plus also featured a sharper "black" screen, which had first appeared on the TI-89 and which eases viewing.

The TI-92 Plus was available both as a stand-alone product, and as a user-installable Plus module which could be added to original TI-92 and TI-92 II units to gain most of the feature improvements, most notably Flash Memory. A stand-alone TI-92 Plus calculator was functionally similar to the HW2 TI-89, while a module-upgraded TI-92 was functionally similar to the HW1 TI-89. Both versions could run the same releases of operating system software.

As of 2002, the TI-92 Plus was succeeded by the Voyage 200 and is no longer sold through TI or its dealers.

The TI-92 Plus is now available in an online emulator,[3] featuring a list of frequently used commands.[4]

Voyage 200

[edit]
Voyage 200
TypeProgrammable Graphing
Introduced2002
Discontinued2014
Latest firmware3.10
PredecessorTI-92 Plus
Calculator
Entry modeD.A.L.
Precision14
Display typeLCD Dot-matrix
Display size240x128
CPU
ProcessorMotorola MC68000
Frequency12MHz
Programming
Programming language(s)TI-BASIC
Memory register188 kB RAM
2.7 MB flash memory
Other
Power supply4 AAAs,
1 CR1616 or CR1620
Weight272 grams (9.6 oz)
Dimensions117 mm × 185 mm × 28 mm (4.6 in × 7.3 in × 1.10 in)

Voyage 200 (also V200 and Voyage 200 PLT) was released in 2002, being the replacement for the TI-92 Plus, with its only hardware upgrade over that calculator being an increase in the amount of flash memory available (2.7 megabytes for the Voyage 200 vs. 702 kilobytes for the TI-92 Plus). It also features a somewhat smaller and more rounded case design.

Like its predecessor, Voyage 200 is an advanced calculator that supports plotting multiple functions on the same graph, parametric, polar, 3D, and differential equation graphing as well as sequence representations. Its symbolic calculation system is based on a trimmed version of the calculation software Derive. In addition to its algebra and calculus capabilities, the Voyage 200 is packaged with list, spreadsheet, and data processing applications and can perform curve fitting to a number of standard functions and other statistical analysis operations. The calculator can also run most programs written for the TI-89 and TI-92 as well as programs specifically written for it. A large number of applications, ranging from games to interactive periodic tables can be found online.

The V200 is easily mistaken for a PDA or a small computer because of its large enclosure and its full QWERTY keyboard — a feature which disqualifies the calculator for use in many tests and examinations, including the American ACT and SAT.[citation needed] The TI-89 Titanium offers exactly the same functionality in a smaller format that is also legal on the SAT test, but not the ACT test.

Features

[edit]

Technical specifications

[edit]
TI-92 TI-92II TI-92 Plus Voyage 200
Display 240×128 pixels
CPU Motorola MC68000
10 MHz 		Motorola MC68000
12 MHz
RAM 128 KB
(70 KB user-available) 		256 KB
(136 KB user-available) 		256 KB
(188 KB user-available)
Flash ROM 1 MB ROM,
(non-upgradable) 		2 MB,
(702 KB[a] user-available) 		4 MB,
(2.7 MB user-available)
Link
capability 		2.5 mm I/O port
Power AA,
CR2032 		AAA,
CR1616
Release 1995 1996 1998, 1999 2002
  1. ^ Official page specifies user-available ROM amount for TI-92 Plus as 702K,[5] but other sources specify it as 388K.[6] This is due to the TI-92 Plus coming with Cabri Geometry pre-installed, which uses the 314 KB difference.

See also

[edit]

References

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

TI-92 series

View on Grokipedia
from Grokipedia
The TI-92 series is a family of advanced graphing calculators developed by , renowned for integrating a built-in (CAS) that enables symbolic manipulation of mathematical expressions, three-dimensional graphing, and programmable functionality in a portable device. Introduced in 1995 with the original TI-92 model, the series marked a significant advancement in handheld computational tools by combining the power of computer-based mathematics software with the independence of a calculator, including features like interactive , matrix operations, and connectivity to external probes such as the Calculator-Based Laboratory (CBL) system. The TI-92 featured a QWERTY-style keyboard, a 240 x 128 pixel LCD display showing up to 12 lines of 40 characters, and a 10 MHz processor, with 128 KB of total memory (70 KB available to users) powered by four AA batteries and a CR2032 backup. This design facilitated complex tasks in , , and statistics, such as solving differential equations symbolically and performing numerical integrations, making it a staple for high school and college-level despite restrictions on its use in standardized exams like and ACT due to the alphabetic keyboard. In 1996, released the TI-92 II, an upgraded variant with doubled memory to 256 KB total (198 KB available), support for five languages (English, French, German, Italian, and Spanish), and improved processing speed, primarily targeted at international markets. The series culminated in the TI-92 Plus in 1999, which integrated flash-upgradable ROM (702 KB total, with 188 KB for programs), enhanced RAM (256 KB), and direct compatibility with ViewScreen overhead projectors, while eliminating the expansion port of earlier models for a more streamlined form factor measuring 4.8 x 8.2 x 1.25 inches and weighing 15.3 ounces. The TI-92 Plus expanded graphing capabilities to include parametric, polar, sequence, and modes, alongside tools for (up to 999 elements per list), statistical regressions, and custom programming in keystroke or . The TI-92 family, comprising the TI-92, TI-92 II, TI-92 Plus, and Voyage 200, shared high compatibility with related devices like the for file transfers and software, though non-flash models like the original TI-92 required hardware modules for upgrades. These calculators revolutionized by democratizing access to symbolic computation, but production ceased around 2002, leaving a legacy in STEM curricula for their robust, versatile design.

Overview and History

Introduction

The TI-92 series represents ' inaugural line of handheld graphing calculators equipped with an integrated (CAS), enabling symbolic manipulation of mathematical expressions alongside numerical computations and graphing functionalities. This CAS was developed in collaboration with Soft Warehouse, Inc., incorporating the capabilities of their Derive software to support operations such as algebraic simplification, differentiation, and integration directly on the device. Designed primarily for advanced students and educators in and , the series bridged the gap between basic calculators and full desktop computers by providing portable access to sophisticated tools. Introduced in 1995 with the original TI-92 model and evolving through subsequent iterations like the TI-92 Plus in 1999 and the Voyage 200 in 2002, the series spanned nearly a decade of in handheld . Key advancements included a full keyboard for efficient text and command input, as well as support for 3D graphing, which allowed users to visualize complex surfaces and functions in three dimensions. These features, powered by a MC68000 processor common across the lineup, marked a shift toward more intuitive and versatile devices for exploratory mathematics. Despite their educational value, TI-92 series calculators were disqualified from major standardized tests such as and AP exams due to their CAS capabilities, which could automate symbolic solving, and the QWERTY keyboard, which raised concerns about potential text-based cheating. This contrasted with the , which, while also featuring CAS and similarly restricted, lacked the full alphanumeric keyboard. The series profoundly influenced computer-enhanced mathematics education, often described as a "handheld revolution" for democratizing access to advanced computational tools beyond costly computer labs and empowering students to focus on conceptual understanding through visualization and experimentation.

Development and Evolution

The development of the TI-92 series emerged in the early 1990s amid a growing emphasis on integrating symbolic computation into mathematics education, driven by consultations with classroom teachers and leading educators to align with National Council of Teachers of Mathematics (NCTM) standards. Texas Instruments sought to bridge the gap between powerful computer algebra systems and portable classroom tools, incorporating symbolic manipulation capabilities through a joint collaboration with Soft Warehouse, Inc., the developers of the DERIVE software, to create a dedicated computer algebra module. This effort was influenced by the limitations of earlier graphing calculators like the TI-85 and TI-86, which lacked advanced symbolic features, prompting TI to pioneer a handheld device capable of handling complex algebraic operations independently of desktop computers. The TI-92 was introduced on April 6, 1995, marking ' first with a built-in (CAS), designed specifically to meet the demand for portable symbolic computation in educational settings from high school to levels. It became available for purchase in January 1996 and was piloted in educational programs starting in fall 1994, emphasizing portability with a weight of 433 grams (15.3 ounces) to facilitate use in diverse environments like classrooms and field trips. The device also integrated interactive geometry software developed in partnership with the Université , adapting Cabri Geometry principles for handheld exploration of constructions and transformations, responding to educator feedback on the need for dynamic visual tools in teaching. Subsequent iterations refined these foundations based on user input and technological advancements. The TI-92 II, released in 1997, enhanced memory capacity and added multilingual support for five languages (English, French, German, Italian, and Spanish), while improving processing speed by 50% to 80% to better handle symbolic tasks. In 1999, the TI-92 Plus introduced Flash ROM technology, enabling software upgrades and expanded customization without hardware replacement, along with increased memory for programs and data. The Voyage 200 followed in 2002 as a more compact evolution, featuring a streamlined design with a keyboard for , doubled RAM, and triple the Flash ROM of its predecessor to support larger applications and storage, addressing portability concerns raised in educational reviews. The series began phasing out in the early 2000s as shifted focus toward next-generation platforms. The original TI-92 and TI-92 II were effectively discontinued by 1998 with the TI-92 Plus upgrade path, while the TI-92 Plus and Voyage 200 were succeeded by the around 2007, with the TI-89 Titanium in 2004 serving as a parallel upgrade in the non-QWERTY CAS lineup; full discontinuation occurred around the 2007 launch of the TI-Nspire, which offered a more versatile, computer-like interface better suited to evolving educational demands for integrated document-based workflows. This transition reflected market pressures to consolidate advanced CAS features into sleeker, multifunctional devices amid competition and feedback prioritizing enhanced connectivity and software ecosystems over the TI-92's keyboard-centric design.

Models

TI-92

The TI-92, released by in April 1995, marked the introduction of the TI-92 series and was priced at approximately $200 to $250 upon launch. Production of the model was discontinued in 1998, paving the way for subsequent iterations in the series. As the pioneering device in its line, it represented a significant advancement in handheld for mathematical , integrating capabilities previously limited to desktop software. The TI-92 featured a large form factor measuring about 4.8 by 8.2 by 1.25 inches and weighing 15.3 ounces, designed for desktop-like functionality in a portable package. It included a full keyboard for efficient text and formula input, paired with a 240 by 128 pixel monochrome LCD screen suitable for detailed visualizations. Power was provided by four AA batteries supplemented by a CR2032 backup battery. Among its innovations, the TI-92 was the first to incorporate a built-in (CAS) based on the DERIVE software, enabling symbolic manipulation such as solving. It also supported 3D graphing of surfaces and interactive geometry tools derived from Cabri Geometry II, expanding its utility for advanced mathematical exploration. The device offered 128 KB of total RAM, with approximately 70 KB available to users for programs and data. However, the TI-92 had notable limitations, including the absence of for software updates and a relatively slower processor speed compared to later models. It supported only English as the interface , restricting in non-English educational settings. Reception highlighted its strong educational potential for enhancing teaching through interactive tools, though its bulkiness and layout drew criticism for impractical portability and led to restrictions on standardized exams like and ACT. The model was directly succeeded by the TI-92 II.

TI-92 II

The TI-92 II, introduced in 1997, represented a refined interim version of the original TI-92 , primarily designed to rectify performance limitations in the initial model through targeted hardware enhancements. This upgrade maintained the core symbolic capabilities, including a shared (CAS) for graphing, while focusing on incremental improvements to usability and efficiency. In terms of design, the TI-92 II retained a similar compact size to the TI-92, measuring approximately 4.8 by 8.2 by 1.25 inches and weighing 15.3 ounces, powered by four AA batteries and a CR2032 cell for backup. It delivered 50 to 80 percent faster processing with its MC68000 processor running at 10 MHz, enabling smoother operation for complex computations and graphing tasks. was expanded to 256 kB of RAM total, with 198 kB available to users for programs and data, alongside support for five interface languages: English, French, German, Italian, and Spanish. A distinctive feature of the TI-92 II was its compatibility with an optional ROM module, which allowed users to extend software functionality without replacing the entire unit, such as adding flash capabilities through later modules. The model also included built-in software based on Cabri II principles, facilitating Euclidean and transformational constructions directly on the device. Positioned as a transitional product in the market, the TI-92 II bridged the gap for users seeking enhanced performance before the arrival of more advanced flash-enabled models, often bundled with educational applications to appeal to settings. Priced comparably to the original TI-92 at around $200 or more, it targeted educators and advanced students despite its lack of flash ROM, which contributed to its relatively rapid obsolescence by 1999 as newer iterations emerged.

TI-92 Plus

The TI-92 Plus, released in 1999, represented the pinnacle of the TI-92 series with significant enhancements in memory and upgradability, before being discontinued around 2006 following the introduction of successor models like the Voyage 200. An online for the TI-92 Plus is available through TI-Planet, allowing users to run the device virtually with pre-loaded operating systems and applications. In terms of design, the TI-92 Plus featured slightly refined ergonomics over its predecessors, including a more streamlined QWERTY keyboard layout and a larger form factor measuring approximately 4.8 x 8.2 x 1.25 inches and weighing 15.3 ounces. The display was upgraded to a sharper 240x128 pixel LCD screen, which improved readability compared to earlier models, though it lacked built-in backlighting and relied on external lighting options for low-light use. Memory specifications included 256 kB of total RAM with 188 kB available to the user after the operating system allocation, and 2 MB of flash ROM providing about 702 kB of user-available space initially; however, the pre-installed Cabri Geometry application reduced effective usable flash to around 388 kB, a discrepancy noted in official documentation versus practical capacity. Power was supplied by four AA batteries plus a CR2032 backup cell for memory retention. As the first model in the series to incorporate , the TI-92 Plus allowed for updatable operating systems and applications via , marking a shift toward extensible functionality. It featured serial connectivity compatible with TI Connect software, enabling data transfer and software installation between the calculator and computers. This model inherited multilingual support from the TI-92 II, accommodating multiple languages in its interface. Battery management remained similar to prior models, emphasizing alkaline cells for reliability in extended use. Performance was bolstered by a 12 MHz 68000-series CPU in later hardware versions, enabling quicker (CAS) operations such as symbolic manipulation and 3D graphing compared to the 10 MHz variants in earlier units. The device also offered compatibility with TI-89 programs, broadening its software ecosystem for educational and technical applications. In reception, the TI-92 Plus saw widespread adoption in higher education for its advanced CAS and graphing capabilities, though its QWERTY keyboard and symbolic solving features led to bans on standardized tests like to prevent unfair advantages.

Voyage 200

The Voyage 200, released in 2002, served as a compact, cost-reduced successor to the TI-92 Plus in ' advanced lineup. Designed for portability, it featured a slimmer profile measuring 117 × 185 × 27 mm and weighing approximately 272 g, making it lighter and more handheld-friendly than its predecessor while retaining core symbolic computation capabilities. The device was eventually discontinued and replaced by the TI-89 Titanium, with production spanning over a decade as one of the longer-running models in the TI-92 series. In terms of hardware, the Voyage 200 utilized a LCD screen with a resolution of 128 × 240 pixels, supporting graphical displays for functions, parametric plots, polar graphs, and 3D surfaces despite its emphasis on algebraic and operations. It was powered by a 12 MHz 68000-series processor, 188 KB of RAM for user data and programs, and 2.7 MB of flash ROM—expanded from prior models to accommodate additional applications and software updates via USB connectivity. Power was provided by four AAA alkaline batteries, offering up to 1,300 hours of operation, supplemented by a CR1616 lithium backup battery for memory retention. The calculator's design incorporated a full keyboard for efficient text input and programming, alongside an icon-based desktop interface for navigating apps like the built-in (CAS). It offered enhanced compatibility with programs developed for the TI-89 and TI-92 Plus, allowing seamless transfer of and assembly code across these 68k-based platforms. Optimized for advanced and tasks, the Voyage 200 excelled in non-graphical symbolic manipulations such as and factoring, though its QWERTY layout restricted its use in certain standardized exams like , ACT, , and AP tests. This positioned it primarily for classroom and professional applications where portability and computational depth outweighed exam-specific approvals.

Features and Specifications

Core Capabilities

The TI-92 series calculators are equipped with a powerful Computer Algebra System (CAS) that enables symbolic manipulation of mathematical expressions, distinguishing them from non-CAS graphing calculators by providing exact algebraic solutions rather than numerical approximations. Core CAS operations include symbolic solving of equations, such as finding roots of polynomials like x22x6=2x^2 - 2x - 6 = 2 yielding x=3x = 3 or x=1x = -1, and solving systems like 2x3y=42x - 3y = 4 and x+7y=12-x + 7y = -12 for x=2x = 2 and y=1y = 1. Integration is handled symbolically, for example, computing xsin(x)dx=xcos(x)+sin(x)\int x \sin(x) \, dx = -x \cos(x) + \sin(x), while factoring decomposes expressions like x24x^2 - 4 into (x2)(x+2)(x-2)(x+2). Matrix manipulations support operations such as row reduction with the rref() function on a matrix like [1234]\begin{bmatrix} 1 & 2 \\ 3 & 4 \end{bmatrix} to reduced row echelon form, determinants, and decompositions including LU and QR, all performed with exact arithmetic that preserves fractions and symbolic constants up to 614 digits in exact mode. Graphing capabilities in the TI-92 series encompass both 2D and 3D plotting for functions, parametric equations, polar forms, and sequences, allowing users to visualize expressions like y=x25x+6y = x^2 - 5x + 6 or 3D surfaces in wireframe or contour modes. Conic sections are plotted directly from implicit equations, such as x2+y2=25x^2 + y^2 = 25 for a circle of radius 5, with tools for transformations including zooming, tangent lines, and inverses. Later models like the TI-92 Plus include pre-installed Cabri Geometry software for interactive 2D geometric constructions, such as drawing and manipulating points, lines, and transformations to explore properties like congruence and similarity. Data analysis features provide a spreadsheet-like interface in the Data/Matrix Editor, supporting up to 99 columns and 999 rows for organizing lists and matrices, with functions like augment() to combine data sets, such as merging {1, -3, 2} and {5, 4}. Statistical tools include one- and two-variable analyses for computing means, medians, and standard deviations, alongside regression models like linear y=ax+by = ax + b, quadratic, exponential, and sinusoidal fits applied to list data. The list editor facilitates operations such as cumulative sums, for instance, cumSum({20, 30, 45, 70}) producing {10, 15, 25, 35}, enabling efficient data manipulation and visualization through histograms or scatter plots. Programming support in the TI-92 series utilizes for creating custom scripts, including functions with loops and conditionals, such as a program defined as Func factoral(nn) with If nn=0 Then 1 Else nn*factoral(nn-1) EndFunc, and full programs using Prgm...EndPrgm structures for iterative tasks. The 68k architecture allows programming via Exec for low-level operations with opcodes, enabling optimized routines and custom menus. Built-in unit conversions handle predefined SI and English units, like converting 2_m to feet or 100_°C to 212_°F using tmpCnv(), with support for user-defined units such as _ms2 = _m/_s², integrated into expressions for physical computations. Expression templates streamline input in textbook format, accessible via menus for integrals f(x)dx\int f(x) \, dx, derivatives ddxf(x)\frac{d}{dx} f(x), and solvers, with Pretty Print mode enhancing readability of results like expand((x+y+1)^2) = x^2 + 2xy + 2x + y^2 + 2y + 1. These templates, combined with auto-paste functionality, allow rapid editing and reuse of symbolic expressions across CAS operations.

Hardware Details

The TI-92 series calculators are powered by variants of the MC68000 , a 16/32-bit CISC processor commonly used in early devices. The original TI-92 and TI-92 II models operate at 10 MHz, providing sufficient performance for symbolic computations and graphing tasks of the era. Subsequent models, the TI-92 Plus, feature an upgraded clock speed of 12 MHz, enabling approximately 20% faster execution of operations compared to their predecessors. Memory configurations evolved significantly across the series to support expanded user data storage and software functionality. Early models lack , relying solely on volatile RAM for both system and user data, while later iterations introduce non-volatile flash ROM for updates and archival storage. RAM capacity starts at 68 KB for the TI-92, increases to approximately 196 KB in the TI-92 II through an additional 128 KB module, and reaches 188 KB in the TI-92 Plus. is absent in the TI-92 and TI-92 II, but the TI-92 Plus includes 702 KB user-available . All models feature LCD displays without backlighting or color support, prioritizing readability in standard lighting conditions over power-intensive visuals. The TI-92, TI-92 II, and TI-92 Plus use a 240 × 128 resolution suitable for detailed graphs and text, with a graphing area of 239 × 103 pixels. Input is facilitated by a full keyboard on all models, including alphabetic keys for programming and entry, supplemented by dedicated function keys and arrow navigation. Power is supplied by four AA alkaline batteries plus a CR2032 backup; typical battery life exceeds 1,000 hours of intermittent use depending on activity. Connectivity options focus on wired data transfer via the TI-GRAPH LINK system for program and file exchange with computers or peripherals like the CBL 2 lab interface, without built-in wireless capabilities. The TI-92, TI-92 II, and TI-92 Plus use a serial port.
ModelProcessorRAM (User-Available)Flash ROM (User-Available)Display ResolutionKeyboardBatteriesConnectivityApprox. Battery Life
TI-92MC68000 @ 10 MHz68 KBNone240 × 128 pixelsQWERTY4 × AA + CR2032Serial port>1,000 hours
TI-92 IIMC68000 @ 10 MHz196 KBNone240 × 128 pixelsQWERTY4 × AA + CR2032Serial port>1,000 hours
TI-92 PlusMC68000 @ 12 MHz188 KB702 KB240 × 128 pixelsQWERTY4 × AA + CR2032Serial port>1,000 hours

References

  1. https://education.ti.com/en/snapapp/timeline
  2. https://education.ti.com/html/eguides/discontinued/graphing/EN/TI-89-TI-92Plus-Guidebook_EN.pdf
  3. http://www.datamath.org/Graphing/TI-92.htm
  4. https://www.ticalc.org/basics/calculators/ti-92.html
  5. http://www.datamath.org/Graphing/TI-92PLUS.htm
  6. https://education.ti.com/en/customer-support/knowledge-base/other-graphing/general-information/12052
  7. https://education.ti.com/~/media/B5C85E284F2B4157842BADFA898B4960
  8. https://education.ti.com/en/customer-support/knowledge-base/ti-83-84-plus-family/general-information/12662
  9. https://www.nku.edu/~longa/family/Dad/ti92.pdf
  10. https://education.ti.com/en/bulletinboard/2018/october/which-ti-calculator-for-the-act-and-why
  11. https://blog.arborbridge.com/what-types-calculators-allowed-act-sat-past
  12. http://www.datamath.org/Graphing/TI-92-II.htm
  13. http://www.datamath.org/Graphing/Voyage200.htm
  14. https://education.ti.com/en/customer-support/knowledge-base/scientific-elem-calculators/general-information/10482
  15. http://tibasicdev.wikidot.com/68k:thecalcs
  16. https://www.techpoweredmath.com/review-ti-92/
  17. http://www.datamath.org/Graphing/TI-92_Expansion.htm
  18. https://tumblokami.tumblr.com/post/168876886453/the-ti-92-a-powerful-graphing-calculator-was
  19. https://tiplanet.org/emu68k_fork/
  20. https://www.appliedcarbon.org/ti92plus.html
  21. https://assets-global.website-files.com/6723d732f1b0967669cd42a2/686d1ddadd021de162fdef20_33105489755.pdf
  22. https://www.ticalc.org/basics/calculators/ti-92plus.html
  23. https://education.ti.com/en/products/accessories/connectivity-kit
  24. http://www.datamath.org/Graphing/Voyage200_ES.htm
  25. https://education.ti.com/en/customer-support/knowledge-base/other-graphing/general-information/12112
  26. https://www.ifixit.com/Device/Texas_Instruments_TI-92
  27. http://mycalcdb.free.fr/main.php?l=0&id=4235
  28. https://education.ti.com/en/product-resources/download
  29. https://www.amazon.com/Texas-Instruments-TI-92-Graphing-Calculator/dp/B00000JBO3
  30. https://education.ti.com/en/customer-support/knowledge-base/ti-83-84-plus-family/general-information/12668
  31. https://education.ti.com/html/eguides/discontinued/graphing/EN/Voyage-200-Guidebook_EN.pdf
  32. https://education.ti.com/html/eguides/discontinued/computer-software/EN/TI-92-Plus-TI-Graphlink-Windows-Guidebook_EN.pdf
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