- #Eight bit double buffered parallel to serial converter. manual
- #Eight bit double buffered parallel to serial converter. full
- #Eight bit double buffered parallel to serial converter. tv
Instrukcja obsługi B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter.
#Eight bit double buffered parallel to serial converter. manual
Manual do usuário B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. Manual de instrucciones B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. Руководство по эксплуатации B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. 取扱説明書 B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. Bedienungsanleitung B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. Instruction d'utilisation B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. User manual B&B Electronics TV Converter Box Parallel to Serial and Serial to Parallel Converter. We may also share this information with third parties for this purpose. We will use this information to make the website and the advertising displayed on it more relevant to your interests. Targeting/Profiling Cookies: These cookies record your visit to our website and/or your use of the services, the pages you have visited and the links you have followed. Loss of the information in these cookies may make our services less functional, but would not prevent the website from working. This enables us to personalize our content for you, greet you by name and remember your preferences (for example, your choice of language or region). Functionality Cookies: These cookies are used to recognize you when you return to our website. This helps us to improve the way the website works, for example, by ensuring that users are easily finding what they are looking for. Analytics/Performance Cookies: These cookies allow us to carry out web analytics or other forms of audience measuring such as recognizing and counting the number of visitors and seeing how visitors move around our website. They either serve the sole purpose of carrying out network transmissions or are strictly necessary to provide an online service explicitly requested by you. The cookies we use can be categorized as follows: Strictly Necessary Cookies: These are cookies that are required for the operation of or specific functionality offered. The AD667A and B are specified for use over the -25☌ to +85☌ temperature range and are available in a 28-pin hermetically sealed ceramic DIP (D) package. The AD667S grade is specified for the -55☌ to +125☌ range and is available in the ceramic DIP (D) or LCC (E) package. The AD667J and K are specified for use over the 0☌ to +70☌ temperature range and are available in a 28-pin molded plastic DIP (N) or PLCC (P) package. The AD667 is available in five performance grades. #Eight bit double buffered parallel to serial converter. full
The AD667 is thus well suited for wide temperature range performance with ☑/2 LSB maximum linearity error and guaranteed monotonicity over the full temperature range. The laser trimming process which provides the excellent linearity, is also used to trim the absolute value of the reference as well as its temperature coefficient. The subsurface (buried) Zener diode on the chip provides a low noise voltage reference which has long-term stability and temperature drift characteristics comparable to the best discrete reference diodes. The AD667 is trimmed at the wafer level and is specified to ☑/4 LSB maximum linearity error (K, B grades) at +25☌ and ☑/2 LSB over the full operating temperature range.
The functional completeness and high performance in the AD667 results from a combination of advanced switch design, high speed bipolar manufacturing process, and the proven laser wafer-trimming (LWT) technology. The latch responds to strobe pulses as short as 100 ns, allowing use with the fastest available microprocessors. The 12 bits of data from the first rank of latches can then be transferred to the second rank, avoiding generation of spurious analog output values. The design of the input latch allows direct interface to 4-, 8-, 12-, or 16-bit buses. Microprocessor compatibility is achieved by the on-chip double-buffered latch. The converter uses 12 precision high speed bipolar current steering switches and a laser trimmed thin-film resistor network to provide fast settling time and high accuracy. The AD667 is a complete voltage output 12-bit digital-to-analog converter including a high stability buried Zener voltage reference and double-buffered input latch on a single chip.
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