HP-35

The HP-35 was Hewlett-Packard's first pocket calculator and the world's first scientific pocket calculator:[1] a calculator with trigonometric and exponential functions. It was introduced in 1972.

HP-35
HP-35 (1st version)
scientific electronic pocket calculator.
TypeScientific
Introduced1972
Discontinued1975
Calculator
Entry modeRPN
Display typeRed LED seven-segment display
Display size15 digits (decimal point uses one digit), (±10±99)
Programming
Memory registerFour-register operational stack with one memory register.
Other
Power supplyInternal rechargeable battery or 115/230 V AC, 5 W
WeightCalculator: 9 oz (255 g),
recharger: 5 oz (140 g)
DimensionsLength: 5.8 in (147 mm),
width: 3.2 in (81 mm),
height: 0.7 in (18 mm) – 1.3 in (33 mm)

History

In about 1970 HP co-founder Bill Hewlett challenged his co-workers to create a "shirt-pocket sized HP-9100". At the time, slide rules were the only practical portable devices for performing trigonometric and exponential functions, as existing pocket calculators could only perform addition, subtraction, multiplication, and division. Introduced at $395 (equivalent to $2,414 in 2019),[2] like HP's first scientific calculator, the desktop 9100A, it used Reverse Polish Notation (RPN) rather than what came to be called "algebraic" entry. The "35" in the calculator's name came from the number of keys.

The original HP-35 was available from 1972 to 1975. In 2007 HP announced the release of the "retro"-look HP 35s to commemorate the 35th anniversary of the launch of the original HP-35.[3]

The HP-35 was named an IEEE Milestone in 2009.[4]

Description

HP-35 mainboard.

The calculator used a traditional floating decimal display for numbers that could be displayed in that format, but automatically switched to scientific notation for other numbers. The fifteen-digit LED display was capable of displaying a ten-digit mantissa plus its sign and a decimal point and a two-digit exponent plus its sign. The display used a unique form of multiplexing, illuminating a single LED segment at a time rather than a single LED digit, because HP research had shown that this method was perceived by the human eye as brighter for equivalent power. Light emitting diodes were relatively new at the time and were much dimmer than high efficiency diodes developed in subsequent decades.

The calculator used three "AA"-sized NiCd batteries assembled into a removable proprietary battery pack. Replacement battery packs are no longer available, leaving existing HP-35 calculators to rely on AC power, or their users to rebuild the battery packs themselves using available cells. An external battery charger was available and the calculator could also run from the charger, with or without batteries installed.

Internally, the calculator was organized around a serial (one-bit) processor chipset made under contract by Mostek, processing 56-bit floating-point numbers, representing 14-digit BCD numbers.

HP-35 functions
Arithmetic+, −, ×, ÷
Trigonometrysin, arc sin; cos, arc cos; tan, arc tan (decimal degrees)
Logarithmslog10x; logex, ex
Other1/x, √x, xy, π

The calculator had a four register stack (x, y, z and t), the 'enter' key pushed the displayed value (x) down the stack. Any binary operation popped the top two registers, and pushed the result. When the stack was popped the t register duplicated into the z register.

Descendants

The HP-35 was the start of a family of related calculators with similar mechanical packaging:

  • The HP-45 added many more features, including the ability to control the output format (rather than the purely automatic format of the HP-35). It also contained an undocumented timer feature. The timer worked, but was not accurate enough to use as a stopwatch due to lack of a crystal oscillator.
  • The HP-65 added programmability, with program storage on magnetic cards.
  • The HP-55, a less expensive follow-on to the HP-65, provided storage for smaller programs, but didn't provide any external storage. The timer that was already present on the HP-45 was now crystal-controlled to achieve the needed accuracy and explicitly documented.
  • The HP-67 expanded on the programmability of the HP-65, and added fully merged keycodes.
  • The HP-80 and cheaper HP-70 provided financial, rather than scientific functions, such as future value and net present value.

Follow-on calculators used varying mechanical packaging but most were operationally similar. The HP-25 was a smaller, cheaper model of a programmable scientific calculator without magnetic card reader, with features much like the HP-65. The HP-41C was a major advance in programmability and capacity, and offered CMOS memory so that programs were not lost when the calculator was switched off. It was the first calculator to offer alphanumeric capabilities for both the display and the keyboard. Four external ports below the display area allowed memory expansion (RAM modules), loading of additional programs (ROM modules) and interfacing a wide variety of peripherals including HP-IL ("HP Interface Loop"), a scaled-down version of the HPIB/GPIB/IEEE-488 instrument bus. The later HP-28C and HP-28S added much more memory and a substantially different, more powerful programming metaphor.

Calculator trivia

  • The HP-35 was 5.8 inches (150 mm) long and 3.2 inches (81 mm) wide, said to have been designed to fit into one of William Hewlett's shirt pockets.
  • Was the first scientific calculator to fly in space in 1972.[5]
  • HP-35 calculators were used on the US space station, Skylab, between May 1973 and February 1974.[6]
  • Is the first pocket calculator with a numeric range that covered 200 decades (more precise 199, ±10±99).[5]
  • The LED display power requirement was responsible for the HP-35's short battery life between charges  about three hours. To extend operating time and avoid wearing out the on/off slide switch, users would press the decimal point key to force the display to illuminate just a single LED junction.
  • The HP-35 calculated arithmetic, logarithmic, and trigonometric functions but the complete implementation used only 767 carefully chosen instructions (7670 bits).
  • One high quality feature of the HP-35 was its use of double-injected keys. Rather than printing the function on the key surface where it could wear off over time and use as with cheaper calculators, the keys were constructed with two colors of plastic, providing durable key top labels for the labeled keys.
  • Introduction of the HP-35 and similar scientific calculators by Texas Instruments soon thereafter signaled the demise of the slide rule among science and engineering students. Slide rule holsters rapidly gave way to "electronic slide rule" holsters, and colleges began to drop slide-rule classes from their curricula.
  • 100,000 HP-35 calculators were sold in the first year, and over 300,000 by the time it was discontinued in 1975—3½ years after its introduction.[7]
  • In 2007 HP introduced a revised HP 35s calculator in memory of the original.
  • An emulation of the HP-35 is available for the Apple iPhone and iPad.

See also

References

  1. "HP-35 Scientific Calculator Awarded IEEE Milestone". Ieee.org. Retrieved 2012-05-17.
  2. This is a best practices guess of the inflation adjusted price.
  3. "Retro HP 35s Launched to Commemorate 35th Anniversary of First HP Handheld Calculator". Hp.com. Retrieved 2012-05-17.
  4. "Milestones:Development of the HP-35, the First Handheld Scientific Calculator, 1972". IEEE Global History Network. IEEE. Retrieved 2011-08-04.
  5. "Hewlett-Packard Calculator Firsts". Hewlett-Packard. Archived from the original on 2006-11-05.
  6. "Calculator, Pocket, Electronic, HP-35". National Air and Space Museum. 2016-03-14. Retrieved 2017-11-17.
  7. "HP Virtual Museum: Hewlett-Packard-35 handheld scientific calculator, 1972". Hp.com. Retrieved 2012-05-17.
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