Victor 1190 Desktop Display Calculator
$ 18.93 In Stock
Condition:
New
Item No.
512673
Mfg Part No.
1190

Product Information for Victor 1190 Desktop Display Calculator

Highlights for Victor 1190 Desktop Display Calculator

  • Product Type:Simple Calculator

Marketing Information

Desktop display calculator features a super large, easy-to-read, 12-digit tilt liquid crystal display (LCD). Cost-sell-margin keys allow you to solve CSM problems quickly and easily. Simply enter two variables, and the third appears. Other functions include three-key independent memory, tax rate keys, tax +/- keys, percent key, six decimal settings, round up/down feature, automatic constants, change sign key and backspace key. Calculator runs on solar power with battery backup.

Battery Information

Technical Information

Warranty

  • Limited Warranty: 2 Year
  • Battery Information

  • Power Source: Battery/Solar
  • Controls/Indicators

    Interfaces/Ports

    Display & Graphics

    General Information

  • Product Type: Simple Calculator
  • Manufacturer Part Number: 1190
  • Manufacturer Website Address: http://www.victortech.com
  • Packaged Quantity: 1 Each
  • Manufacturer: Victor Technology, LLC
  • Product Model: 1190
  • Product Name: 1190 Desktop Display Calculator
  • Brand Name: Victor
  • I/O Expansions

    Memory

    Miscellaneous

    Additional Information

    Selectable Decimal Settings

    Country of Origin

    China

    Recycled

    Yes

    Recycled Content

    40%

    Post-consumer-waste%

    0%

    Assembly Required

    No

    Physical Characteristics

  • Weight (Approximate): 8.20 oz
  • Color: Black
  • Height: 1"
  • Width: 5.9"
  • Depth: 7.8"
  • Technical Information

  • Calculator Features: Easy-to-read Display
  • Operations/Functionality:
    • Cost-sell-margin
    • Tax rate key
    • Tax +/- key
    • Percent key
    • Selectable decimal setting
    • Round up/down
    • Automatic constants
    • Change sign key +/-
    • Backspace key
    • Six Decimal Settings
    • Three-Key Independent Memory