![]() If you're looking to add a GPS module, Bluetooth, XBee's, serial LCDs, or many other external devices to your project, you'll probably need to whip out some serial-fu. ![]() The clock-less serial protocol we'll be discussing in this tutorial is widely used in embedded electronics. It is so common, in fact, that when most folks say “serial” they’re talking about this protocol (something you’ll probably notice throughout this tutorial). The serial protocol we'll be discussing in this tutorial is the most common form of asynchronous transfers. This transmission method is perfect for minimizing the required wires and I/O pins, but it does mean we need to put some extra effort into reliably transferring and receiving data. Examples of synchronous interfaces include SPI, and I 2C.Īsynchronous means that data is transferred without support from an external clock signal. This makes for a more straightforward, often faster serial transfer, but it also requires at least one extra wire between communicating devices. Each of these serial interfaces can be sorted into one of two groups: synchronous or asynchronous.Ī synchronous serial interface always pairs its data line(s) with a clock signal, so all devices on a synchronous serial bus share a common clock. Other very common serial interfaces include SPI, I 2C, and the serial standard we're here to talk about today. USB (universal serial bus), and Ethernet, are a couple of the more well-known computing serial interfaces. Over the years, dozens of serial protocols have been crafted to meet particular needs of embedded systems. So, we often opt for serial communication, sacrificing potential speed for pin real estate. If you've ever had to move a project from a basic Arduino Uno to a Mega, you know that the I/O lines on a microprocessor can be precious and few. But it requires many more input/output (I/O) lines. It's fast, straightforward, and relatively easy to implement. Parallel communication certainly has its benefits. ![]() Over a set amount of time, the mega-highway potentially gets more people to their destinations, but that rural two-laner serves its purpose and costs a fraction of the funds to build. Think of the two interfaces as a stream of cars: a parallel interface would be the 8+ lane mega-highway, while a serial interface is more like a two-lane rural country road. How do we tolerate, interpret and account for it? What happens when pain is minimized or dismissed?Įpisode 1 of The Retrievals arrives Thursday, June 29th.Example of a serial interface, transmitting one bit every clock pulse. Throughout, Burton explores the stories we tell about women’s pain. And then there is the story of how this all could have happened at the Yale clinic in the first place. The nurse, too, has her own story, about her own pain, that she tells to the court. Susan details the events that unfolded at the clinic, and examines how the patients’ distinct identities informed the way they made sense of what happened to them in the procedure room. But most of the staff members who fielded the patients’ reports did not know the real reason for the pain, which was that a nurse at the clinic was stealing fentanyl, and replacing it with saline.įrom Serial Productions and The New York Times, The Retrievals is a five-part narrative series reported by Susan Burton, a veteran staff member at “This American Life” and author of the memoir “Empty.” Others called the clinic from home to report pain in the hours that followed. Some of the patients screamed out in the procedure room. Then a surgical procedure called egg retrieval caused them excruciating pain. The patients in this story came to the Yale Fertility Center to pursue pregnancy.
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