LCD / LCD PANEL / LCD Module / LCD Display. Atanua - Downloads Atanua is open source, source code available at If you're having issues, update your display drivers first. That has fixed over 90% of issues in the past.OSX build is for old ppc macs. 10.4 works, 10.3.9 might work. If you make plug-ins for Atanua and wish them to be listed here, toss me an email. Bachelor's thesis on Atanua (PDF) - covers usage and plenty of the internals of AtanuaFinal year project presentation slides (PDF) - slides of the brief presentationGoogle+ page. Atanua win32 1.3.141220 Open source release. Atanua win32 1.2.130617 Atanua Linux/x86 1.2.130617 Atanua Linux/x86_64 1.2.130617 Autosave now checks whether the path ends in a trailing slash, and adds one if it's missing. Atanua win32 1.2.130505 Optimized loading of complicated boxed designs. Atanua win32 1.2.110613 Delayed error propagation, combined with some other optimizations, caused (at least) some simple circuits from ever generating error signals. Atanua win32 1.2.110518
100 IC Circuits The 74c14 IC is one of the most useful chips on the market. When you realise its versatility, you will use it for lots of designs. In this section we describe its capability and provide circuits to show how it can be used. The 74C14 IC contains 6 Schmitt Trigger gates. Minimum supply voltage 5v Maximum supply voltage 15v Max current per output 10mA - 60mA total Maximum speed of operation 4MHz Current consumption approx 1uA with nothing connected to the inputs or outputs. The output of each gate will deliver about 10mA. Adding a BUFFER TRANSISTOR Each gate is a separate "Building Block." Here is an animation of how the gate works. The next feature to understand is called THE TIME DELAY CIRCUIT The time delay circuit is also know as a "TIMING CIRCUIT," "DELAY CIRCUIT," or "R-C CIRCUIT". If we add the TIMING CIRCUIT (DELAY CIRCUIT) to the output of a Schmitt gate, we can see the capacitor charging and discharging: Here is the clever part.
The Transistor Amplifier TRANSISTOR PINOUTS: THE RESISTOR Before we go any further, we need to talk about the RESISTOR. It's a two-leaded electrical component that has resistance from a fraction of an OHM to many millions of ohms (depending how much carbon is in the resistor). When the resistance is very low (small) the resistor is equal to a piece of wire and when it is very high, the resistance is equal to . . . . . . The value of a resistor is marked on the body with bands of colours or, in the case of surface-mount resistors, a set of numbers. These identify the value of the resistor in OHMs. When the value of resistance is above one-thousand ohms, we use the letter "k" - for example 1,200 ohms is 1.2k or 1k2. A resistor limits (or reduces) the current-flow. That's all a resistor does. This simple feature of limiting the current is like a man with a hammer - he can hammer nails, break glass, drive a pole into the ground and lots more and a resistor can do more than 12 different "things."
The Transistor Amplifier TRANSISTOR PINOUTS: THE RESISTOR Before we go any further, we need to talk about the RESISTOR. It's a two-leaded electrical component that has resistance from a fraction of an OHM to many millions of ohms (depending how much carbon is in the resistor). When the resistance is very low (small) the resistor is equal to a piece of wire and when it is very high, the resistance is equal to . . . . . . The value of a resistor is marked on the body with bands of colours or, in the case of surface-mount resistors, a set of numbers. These identify the value of the resistor in OHMs. When the value of resistance is above one-thousand ohms, we use the letter "k" - for example 1,200 ohms is 1.2k or 1k2. A resistor limits (or reduces) the current-flow. That's all a resistor does. This simple feature of limiting the current is like a man with a hammer - he can hammer nails, break glass, drive a pole into the ground and lots more and a resistor can do more than 12 different "things."