Best Binary Options Signals Provider (Free & Premium ...

Cryptosoft Review 2020-Is it a Scam?

Cryptosoft Review 2020-Is it a Scam?

Most f the reviews we tend to have come back across reveal that the Cryptp soft platform is easy to
Their client service is very efficient. We did a live check and confirmed that they respond at intervals a moment. Moreover, they are available 24/7.
The Cryptp soft app is secure. They need all the mandatory measures in place to make sure data privacy.
The Cryptp soft System is considered by several among the most effective robots within the market nowadays. We have a tendency to realize this robot to perform virtually the same with Bitcoin Rush, another top bitcoin robot. Read the review of Bitcoin Rush for more data?
Cryptp soft registration method is straightforward, easy, and secure. You only want but 10 minutes to form an account and begin trading. Cryptp soft is a absolutely auto bot and is so accessible to everyone.

https://preview.redd.it/giu6kclgfnn51.jpg?width=1280&format=pjpg&auto=webp&s=f605d84ba2174f831ca825dbaffddf061b3a55b5
You do not want to perceive trading lingo to use Immediate Edge. The following steps can get you started with this robot.
STEP ONE: Fill the Signup type

Visit the Cryptp soft home page and register your name, phone number, and email in the provided kind. You will be asked to verify your phone variety via a text code and email through a link. CryptoVibes will ascertain that the Cryptp soft registration process is secure.

Their web site is SSL secured to confirm that hackers cannot steal personal information submitted through it. Cryptp soft cyber safety policy states that they're GDPR adherent. This suggests that they handle your knowledge with strict privacy.
STEP TWO: Get matched with a broker

The Cryptp soft Software then matches you with one in every of their partner brokers. The role of the broker is to receive deposits and facilitate transactions. We have a tendency to have determined that Cryptp soft only partners with regulated brokers.

With a regulated broker, they guarantee that your cash is safe. Reputable regulators such as the FCA, FSB, ASIC, and CySEC need brokers to segregate deposits and submit periodic reports on deposit usage.
You wold like a deposit of a minimum of $250 to trade with Immediate Edge. Do not confuse this quantity with the value of the robot. Cryptp soft does not need any license fee. The house owners of this robot build money by charging a small commission on the profits generated through the app
Deposits with Cryptp soft should be created through Wire Transfer, Visa, and MasterCard. It takes a few seconds for a deposit to reflect in an exceedingly trader’s account. Cryptp soft does not charge any deposit fees.
The Cryptp soft does provide a demo account to help traders familiarize themselves with its web-trader. CryptoVibes recommends that you are doing demo trading before going to live to trade. Please note that the demo is for demonstrative purposes solely.
The results you receive on the platform are primarily based on historical information and could therefore not mirror what you'll get in live trading.
The Cryptp soft live trader comes with features to help you outline the amount of risk you are willing to require per trade. You wish to go through the demo account to familiarize with these features. As mentioned severally in this review, you do not want specialized skills to use this robot.
Live trading with Cryptp soft involves determining the quantity of capital you plan to risk per trade and clicking the live button. Scan our review of Bitcoin Trader for one more straightforward to use the robot.
*Remember all trading risks and you shouldn’t risk more then you'll be able to afford to lose.
How to get the most out of Cryptp soft App
We have identified the following tips as paramount in guaranteeing that you make the most of Immediate Edge.
Begin with a deposit of $250 – Given the level of risk involved in trading with Immediate Edge, you should start with a tiny investment.
Follow crypto market news – You need to determine the type of reports that drives volatility high and capitalize on them. Cryptp soft claims to form the foremost profits throughout high market volatility.
Trade for eight hours per day – In keeping with Immediate Edge, trading for at least eight hours per day can help maximize profits. Cryptp soft is entirely auto, and hence you'll be able to leave the robot running as you continue together with your daily errands. You are doing not want more than twenty minutes per day to observe your account.
Close trading sessions at the tip of the day – Leaving open positions overnight is doubtless to translate to losses since the markets can change considerably overnight. It is better to shut sessions even if in the negative and start trading again the subsequent day. With a correct risk management strategy, there is no would like to fret concerning periodic losses.
Following our review we tend to realize Cryptp soft to be legit. But, traders ought to take additional caution, provided that this bot comes at a degree of risk. Whereas the app claims it's potential to form profits of up to 50percent per day, you'll be able to additionally lose the complete deposit inside seconds. This is often not sudden for a high-frequency trading robot.
We recommend that you just apply the required risk management measures. As a rule of thumb don't risk more than 10percent of your trading capital per trade. Also, never trade with an amount you cannot afford to lose. It is prudent to start small and add cash as you get conversant with the various features on the platform.
Recently, a brand new trading software was added to the bitcoin investment trade. This software is termed Cryptp soft and it is allegedly created by a corporation or organization called the International Council for Bitcoin.
There is additionally a letter out there on their web site that has been signed by someone named David. This person claims to own earned over 1,000,000 as a results of investing in bitcoins. What’s very shocking concerning this letter is that David claims to have earned that huge quantity in just one trade. If we have a tendency to place it in simple words, David became a millionaire overnight.
We tend to highly doubt that a trading system that has been launched recently will have such potential. To verify the main points of this software and to determine its legitimacy, we have a tendency to conducted our own research and investigation.
Cryptp soft is a bitcoin trading software that’s meant to assist newbie traders get involved in Cryptocurrency trading with less risk than ancient investment opportunities. Cryptp soft software was created by The International Council For Bitcoin who is PRO Bitcoin trader Group behind the Cryptp soft software. Notice out all concerning Cryptp soft software by The International Council For Bitcoin.
Cryptp soft Software may be a nice development by a famous, well established and experienced bitcoin trader Investors with a viewpoint to enable traders to perform different tasks with ease and convenience.

https://preview.redd.it/uuh85yghfnn51.png?width=1238&format=png&auto=webp&s=d0558e6e123114b6624d5a724b3b9b5983e717e1
Cryptp soft Software is essentially a Binary choices trading software that is designed to assist traders win and predict the Binary options trend of their respective choices. Cryptp soft APP works as a code to urge financial success, shows traders how they'll make money on-line, helps them to find different ways in which to induce huge returns on their investment. The Cryptp soft Trading Software additionally provides analyses of Market conditions so that traders will recognize what ought to be their next step. Cryptp soft System gives secret cryptocurrency ways that ultimately help binary traders to create thousands of greenbacks solely for some bucks.
Several individuals can say that Cryptocurrency Trading may be a risky business and tend to remain faraway from it. But from my expertise, high volatility means HIGH RETURN OF INVESTMENT in Crypto Market. But this can be where the Cryptp soft comes into play, the mathematical algorithm used by Cryptp soft Software takes the guesswork out choosing a winning profitable trade. You don’t must be an expert. Like I said earlier, I actually have personally tested the Cryptp soft and found the success rate is about ninety sevenpercent. I don’t apprehend concerning you, but a ninety seven% probability of earning a profitable trade is TERRIBLY GOOD! I’ve never come across something like this trading software before. Keep reading, below are my Cryptp soft results for the past week or so…
Watch over the Shoulder of a Professional Each Day and you'll be able to learn as you trade.
Averaging 97% Winning Weeks With Cryptp soft which suggests that more potential profits for you
Cryptp soft Software Are Fully Transparent
No previous experience with binary choices trading required
Web-based mostly, no need for downloads, additionally works on phones, tablets
You'll be able to Even Watch Cryptp soft Signals From Your Phone (iPhone Users — Photon Browser)
If you are ready to begin making cash online with an on the spot edge, there has never been a better chance than currently. If you enjoy surfing the web for countless hours trying for the next Trading Method Secrets, never being able to urge centered, being overloaded with conflicting information, and not creating cash on-line, you ought to probably leave this page right now and get back to that Cryptp soft System strategy
Cryptp soft bot could be a new cryptocurrency trading invention that comes with options that create this software stand out among others. It is conjointly an automatic trading platform that uses a smart program algorithm to detect favorable trading opportunities. It acts on its own or waits for a prompt command from the user depending on the software’s settings. But what makes this software unique and a favorite to individuals is what we have a tendency to shall unveil in this review.
There have been lots of unverified claims of how totally different cryptocurrency software have helped several people to make massive profits leading to Scam individuals. However, it's pertinent for cryptocurrency traders to verify if a particular trading software may be a scam or legit, which is also ?
After subjecting the features of the Cryptp soft bot software to a series of tests, the software isn't a scam however legit. The Cryptp soft bot is believed to have successful rate of 85%, that is a lot of than the 80percent benchmark for average software. The Cryptp soft bot has helped cryptocurrency traders to make sensible profits, which has been documented as testimonies on the software’s website.
Trading on the platform is straightforward and might not require experience. We had to verify the simplicity of the software, and we tend to discovered that the software is easy to navigate. The demo trading feature of the software makes it potential for brand new users to hold out trading activities in an exceedingly simulated atmosphere while not having to risk their investment. This any gives credence to the legitimacy of the software because it ensures that new users get accustomed to the features of the software before continuing to measure to trade
As earlier stated, the Cryptp soft bot could be a high-tech program software that comes with exceptional options that makes it among the simplest cryptocurrency trading software in the blockchain market. The outstanding features of the Cryptp soft bot embody the subsequent:
https://www.cryptoerapro.com/cryptosoft/

http://www.cryptoerapro.com/

https://twitter.com/cryptoerapro

https://www.instagram.com/cryptoerapro/

https://www.pinterest.co.uk/cryptoerapro/
submitted by cryptoerapro to u/cryptoerapro [link] [comments]

LCD Arduino project Display Heart Rate

LCD Arduino project brief introduction
Some time ago, I found a heart rate sensor module MAX30100 in shopping online. This module can collect blood oxygen and heart rate data of users, which is also simple and convenient to use.
According to the data, I found that there are libraries of MAX30100 in the Arduino library files. That is to say, if I use the communication between LCD Arduino and MAX30100, I can directly call the Arduino library files without having to rewrite the driver files. This is a good thing, so I bought the module of MAX30100.
I decided to use Arduino to verify the heart rate and blood oxygen collection function of MAX30100. With STONE TFT LCD screen for monitoring blood pressure.
Note: this module by default only with 3.3 V level MCU communications, because it defaults to using IIC pin pull up the resistance of 4.7 K to 1.8 V, so there is no communication with the Arduino by default, if you want to commune with the Arduino and need two 4.7 K of the IIC pin pull-up resistor connected to the VIN pin, these contents will be introduced in the back of the chapter.

Functional assignments

Before starting this project, I thought about some simple features:
• Heart rate data and blood oxygen data were collected
• Heart rate and blood oxygen data are displayed through an LCD screen
These are the only two features, but if we want to implement it, we need to do more thinking:
• What master MCU is used?
• What kind of LCD display?
As we mentioned earlier, we use Arduino for the MCU, but this is an LCD Arduino project, so we need to choose the appropriate LCD display module. I plan to use the LCD display screen with a serial port. I have a STONE STVI070WT-01 displayer here, but if Arduino needs to communicate with it, MAX3232 is needed to do the level conversion.
Then the basic electronic materials are determined as follows:
  1. Arduino Mini Pro development board
  2. MAX30100 heart rate and blood oxygen sensor module
  3. STONE STVI070WT-01 LCD serial port display module
  4. MAX3232 module

Hardware Introduction

MAX30100

The MAX30100 is an integrated pulse oximetry and heart rate monitor sensor solution. It combines two LEDs, a photodetector, optimized optics, and low-noise analog signal processing to detect pulse oximetry and heart-rate signals. The MAX30100 operates from 1.8V and 3.3V power supplies and can be powered down through software with negligible standby current, permitting the power supply to remain connected at all times.

Applications

● Wearable Devices
● Fitness Assistant Devices
● Medical Monitoring Devices

Benefits and Features

1、Complete Pulse Oximeter and Heart-Rate SensorSolution Simplifies Design
• Integrated LEDs, Photo Sensor, and high-Performance Analog Front -End
• Tiny 5.6mm x 2.8mm x 1.2mm 14-Pin OpticallyEnhanced System-in-Package
2、Ultra-Low-Power Operation Increases Battery Life for wearable Devices
• Programmable Sample Rate and LED Current for Power Savings
• Ultra-Low Shutdown Current (0.7µA, typ)
3、Advanced Functionality Improves Measurement Performance
• High SNR Provides Robust Motion Artifact Resilience
• Integrated Ambient Light Cancellation
• High Sample Rate Capability
• Fast Data Output Capability

Detection Principle


https://preview.redd.it/254ou0pq20a51.jpg?width=817&format=pjpg&auto=webp&s=2d3287e1973b328412e14c6e56f74e6f5975153e
Just press your finger against the sensor to estimate pulse oxygen saturation (SpO2) and pulse (equivalent to heartbeat).
The pulse oximeter (oximeter) is a mini-spectrometer that USES the principles of different red cell absorption spectra to analyze the oxygen saturation of the blood. This real-time and rapid measurement method is also widely used in many clinical references.
I will not introduce the MAX30100 too much, because these materials are available on the Internet. Interested friends can look up the information of this heart rate test module on the Internet, and have a deeper understanding of its detection principle.

Introduction to the STVI070WT-01 displayer

In this project, I will use the STONE STVI070WT-01 to display the heart rate and blood oxygen data.
The driver chip has been integrated inside the display screen, and there is software for users to use. Users only need to add buttons, text boxes, and other logic through the designed UI pictures, and then generate configuration files and download them into the display screen to run.
The display of STVI070WT-01 communicates with MCU through the UART RS232 signal, which means that we need to add a MAX3232 chip to convert the RS232 signal into a TTL signal so that we can communicate with Arduino MCU.

https://preview.redd.it/kyyv3hou20a51.jpg?width=749&format=pjpg&auto=webp&s=512b7285eb763e518a85d0b172dabc08b15cab6a
If you are not sure how to use the MAX3232, please refer to the following pictures:

https://preview.redd.it/5laiqsxw20a51.jpg?width=653&format=pjpg&auto=webp&s=126fb57d5171d942046277896e1552995df0ce13
If you think the level conversion is too troublesome, you can choose other types of displayers of STONE Tech, some of which can directly output uart-TTL signal.
The official website has detailed information and introduction:
https://www.stoneitech.com/
If you need video tutorials and tutorials to use, you can also find it on the official website.

https://preview.redd.it/0rkfwxk530a51.jpg?width=867&format=pjpg&auto=webp&s=32803906927fff48bb8fbc1b0a7c073cfe54c5e5

Development steps

Three steps of STONE display screen development:
• Design the display logic and button logic with STONE TOOL software, and download the design file to the display module.
• MCU communicates with the STONE LCD display module through the serial port.
• With the data obtained in step 2, the MCU does other actions.

STONE TOOL software installation

Download the latest version of the STONE TOOL software (currently TOOL2019) from the website, and install it.
After the software is installed, the following interface will be opened:

https://preview.redd.it/evuct2w630a51.jpg?width=848&format=pjpg&auto=webp&s=201d40fdb81e2c4fd229992daf15501f2cb177a0
Click the "File" button in the upper left corner to create a new project, which we will discuss later.

LCD Arduino

Arduino is an open-source electronic prototype platform that is easy to use and easy to use. It includes the hardware part (various development boards that conform to the Arduino specification) and the software part (Arduino IDE and related development kits).
The hardware part (or development board) consists of a microcontroller (MCU), Flash memory (Flash), and a set of universal input/output interfaces (GPIO), which you can think of as a microcomputer motherboard.
The software part is mainly composed of Arduino IDE on PC, related board-level support package (BSP) and rich third-party function library. With the Arduino IDE, you can easily download the BSP associated with your development board and the libraries you need to write your programs.
Arduino is an open-source platform. So far, there have been many models and many derived controllers, including Arduino Uno, Arduino Nano, Arduino Yun and so on. In addition, the Arduino IDE now not only supports the Arduino series development boards but also adds support for popular development boards such as Intel Galileo and NodeMCU by introducing BSP.
Arduino senses the environment through a variety of sensors, controlling lights, motors and other devices to feedback and influence the environment. The microcontroller on the board can be programmed with an Arduino programming language, compiled into binaries, and burned into the microcontroller. Programming for Arduino is implemented with the Arduino programming language (based on Wiring) and the Arduino development environment (based on Processing). Arduino-based projects can contain Arduino only, as well as Arduino and other software running on PC, and they communicate with each other (such as Flash, Processing, MaxMSP).

HMI for Arduino serial display TFT LCD project development environment

The Arduino development environment is the Arduino IDE, which can be downloaded from the Internet.
Log into the official website of Arduino and download the software
https://www.arduino.cc/en/Main/Software?setlang=cn
After installing the Arduino IDE, the following interface will appear when you open the software:

https://preview.redd.it/2ajmkke830a51.jpg?width=567&format=pjpg&auto=webp&s=56dc9dd01c98b231c782ef94d24a9f620c4897b3
The Arduino IDE creates two functions by default: the setup function and the loop function.
There are many Arduino introductions on the Internet. If you don't understand something, you can go to the Internet to find it.

LCD Arduino Project implementation process

hardware connection

To ensure that the next step in writing code goes smoothly, we must first determine the reliability of the hardware connection.
Only four pieces of hardware were used in this project:
  1. Arduino Mini pro-development board
  2. STONE STVI070WT-01 TFT-LCD display screen
  3. MAX30100 heart rate and blood oxygen sensor
  4. MAX3232 (rs232-> TTL)
The Arduino Mini Pro development board and STVI070WT-01 TFT-LCD display screen are connected through UART, which requires level conversion through MAX3232, and then the Arduino Mini Pro development board and MAX30100 module are connected through IIC interface. After thinking clearly, we can draw the following wiring picture:

https://preview.redd.it/w2e5c9ha30a51.jpg?width=769&format=pjpg&auto=webp&s=95129db838d6c358e986c88a4d1348f4783cd0ab
https://preview.redd.it/eom4wiia30a51.jpg?width=1091&format=pjpg&auto=webp&s=ff56c3afaf063d7785a5b85ba283532be0dd896e
Make sure there are no errors in the hardware connection and proceed to the next step.

STONE TFT LCD user interface design

First of all, we need to design a UI display image, which can be designed by PhotoShop or other image design tools. After designing the UI display image, save the image in JPG format.
Open the software STONE TOOL 2019 and create a new project:

https://preview.redd.it/sqjii2mc30a51.jpg?width=1004&format=pjpg&auto=webp&s=12f0a87d6c2ca8decaff241d5a0b50a3a1aece89
https://preview.redd.it/4ta8cdlc30a51.jpg?width=871&format=pjpg&auto=webp&s=b31ac5e612a2c809e29f63974a04ba25bff83788
Remove the image that was loaded by default in the new project, and add the UI image that we designed.
Add the text display component, design the display digit and decimal point, get the storage location of the text display component in the displayer.
The effect is as follows:

https://preview.redd.it/2mfqapoe30a51.jpg?width=1335&format=pjpg&auto=webp&s=aacfa0fde88defacd127ea9d9d27ab006ab618dd
Text display component address:
• Connection sta : 0x0008
• Heart rate : 0x0001
• Blood oxygen : 0x0005
The main contents of the UI interface are as follows:
• Connection status
• Heart rate display
• Blood oxygen showed

Generate configuration file

Once the UI design is complete, the configuration file can be generated and downloaded to the STVI070WT-01 displaye.

First, perform step 1, then insert the USB flash drive into the computer, and the disk symbol will be displayed. Then click "Download to u-disk" to Download the configuration file to the USB flash drive, and then insert the USB flash drive into STVI070WT-01 to complete the upgrade.

MAX30100

MAX30100 communicates via IIC. Its working principle is that the ADC value of heart rate can be obtained through infrared led irradiation. The MAX30100 register can be divided into five categories: state register, FIFO, control register, temperature register, and ID register. The temperature register reads the temperature value of the chip to correct the deviation caused by the temperature. The ID register can read the chip's ID number.

https://preview.redd.it/221fq8vg30a51.jpg?width=848&format=pjpg&auto=webp&s=43e93284ac35cf1944a77d79ff9a2f662e540c7e

MAX30100 is connected with the Arduino Mini Pro development board through the IIC communication interface. Because there are ready-made MAX30100 library files in the Arduino IDE, we can read the heart rate and blood oxygen data without studying the registers of MAX30100.
For those who are interested in exploring the MAX30100 register, see the MAX30100 Datasheet.

Modify the MAX30100 IIC pull-up resistor

It should be noted that the 4.7k pull-up resistance of the IIC pin of MAX30100 module is connected to 1.8v, which is not a problem in theory. However, the communication logic level of the Arduino IIC pin is 5V, so it cannot communicate with Arduino without changing the hardware of the MAX30100 module.Direct communication is possible if the MCU is STM32 or another 3.3v logic level MCU.
Therefore, the following changes need to be made:

https://preview.redd.it/jti57usl30a51.jpg?width=521&format=pjpg&auto=webp&s=c56b1b1a8294d60a8f9e931e411305f68c5c5559
Remove the three 4.7k resistors marked in the picture with an electric soldering iron. Then weld two resistors of 4.7k at the pins of SDA and SCL to VIN, so that we can communicate with Arduino.

Arduino serial display LCD

Open the Arduino IDE and find the following buttons:

https://preview.redd.it/990d3bdp30a51.jpg?width=853&format=pjpg&auto=webp&s=24136c385601b69d5afc67842358b102373277ef
Search for "MAX30100" to find two libraries for MAX30100, then click download and install.

https://preview.redd.it/4n167pbv30a51.jpg?width=933&format=pjpg&auto=webp&s=cef50833667bae3f30ac94f5a48b43795b779845
After the installation, you can find the Demo of MAX30100 in the LIB library folder of LCD Arduino:

https://preview.redd.it/rn05xgvw30a51.jpg?width=911&format=pjpg&auto=webp&s=3709bc7c5be36ebdd14c01cb0b7c1933953425b0
Double-click the file to open it.

https://preview.redd.it/q6fqylky30a51.jpg?width=819&format=pjpg&auto=webp&s=8073917be374a72bef2977b4b11ccb2b56fa944e
This Demo can be directly tested. If the hardware connection is ok, you can download the code compilation into the Arduino development board and see the data of MAX30100 in the serial debugging tool.
The complete code is as follows: /*
Arduino-MAX30100 oximetry / heart rate integrated sensor library
Copyright (C) 2016 OXullo Intersecans
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include "MAX30100_PulseOximeter.h"
#define REPORTING_PERIOD_MS 1000
// PulseOximeter is the higher level interface to the sensor
// it offers:
// * beat detection reporting
// * heart rate calculation
// * SpO2 (oxidation level) calculation
PulseOximeter pox;
uint32_t tsLastReport = 0;
// Callback (registered below) fired when a pulse is detected
void onBeatDetected()
{
Serial.println("Beat!");
}
void setup()
{
Serial.begin(115200);
Serial.print("Initializing pulse oximeter..");
// Initialize the PulseOximeter instance
// Failures are generally due to an improper I2C wiring, missing power supply
// or wrong target chip
if (!pox.begin()) {
Serial.println("FAILED");
for(;;);
} else {
Serial.println("SUCCESS");
}
// The default current for the IR LED is 50mA and it could be changed
// by uncommenting the following line. Check MAX30100_Registers.h for all the
// available options.
// pox.setIRLedCurrent(MAX30100_LED_CURR_7_6MA);
// Register a callback for the beat detection
pox.setOnBeatDetectedCallback(onBeatDetected);
}
void loop()
{
// Make sure to call update as fast as possible
pox.update();
// Asynchronously dump heart rate and oxidation levels to the serial
// For both, a value of 0 means "invalid"
if (millis() - tsLastReport > REPORTING_PERIOD_MS) {
Serial.print("Heart rate:");
Serial.print(pox.getHeartRate());
Serial.print("bpm / SpO2:");
Serial.print(pox.getSpO2());
Serial.println("%");
tsLastReport = millis();
}
}
📷
This code is very simple, I believe you can understand it at a glance. I have to say that the modular programming of Arduino is very convenient, and I don't even need to understand how the driver code of Uart and IIC is implemented.
Of course, the above code is an official Demo, and I still need to make some changes to display the data to STONE's displayer.

Display data to the STONE display through Arduino LCD

First, we need to get the address of the component that displays the heart rate and blood oxygen data in STONE's displayer:
In my project, the address is as follows:
Heart rate display component address: 0x0001
Address of blood oxygen display module: 0x0005
Sensor connection status address: 0x0008
If you need to change the display content in the corresponding space, you can change the display content by sending data to the corresponding address of the display screen through the serial port of Arduino.
The modified code is as follows:
/*
Arduino-MAX30100 oximetry / heart rate integrated sensor library
Copyright (C) 2016 OXullo Intersecans
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include "MAX30100_PulseOximeter.h"
#define REPORTING_PERIOD_MS 1000
#define Heart_dis_addr 0x01
#define Sop2_dis_addr 0x05
#define connect_sta_addr 0x08
unsigned char heart_rate_send[8]= {0xA5, 0x5A, 0x05, 0x82,\
0x00, Heart_dis_addr, 0x00, 0x00};
unsigned char Sop2_send[8]= {0xA5, 0x5A, 0x05, 0x82, 0x00, \
Sop2_dis_addr, 0x00, 0x00};
unsigned char connect_sta_send[8]={0xA5, 0x5A, 0x05, 0x82, 0x00, \
connect_sta_addr,0x00, 0x00};
// PulseOximeter is the higher level interface to the sensor
// it offers:
// * beat detection reporting
// * heart rate calculation
// * SpO2 (oxidation level) calculation
PulseOximeter pox;
uint32_t tsLastReport = 0;
// Callback (registered below) fired when a pulse is detected
void onBeatDetected()
{
// Serial.println("Beat!");
}
void setup()
{
Serial.begin(115200);
// Serial.print("Initializing pulse oximeter..");
// Initialize the PulseOximeter instance
// Failures are generally due to an improper I2C wiring, missing power supply
// or wrong target chip
if (!pox.begin()) {
// Serial.println("FAILED");
// connect_sta_send[7]=0x00;
// Serial.write(connect_sta_send,8);
for(;;);
} else {
connect_sta_send[7]=0x01;
Serial.write(connect_sta_send,8);
// Serial.println("SUCCESS");
}
// The default current for the IR LED is 50mA and it could be changed
// by uncommenting the following line. Check MAX30100_Registers.h for all the
// available options.
pox.setIRLedCurrent(MAX30100_LED_CURR_7_6MA);
// Register a callback for the beat detection
pox.setOnBeatDetectedCallback(onBeatDetected);
}
void loop()
{
// Make sure to call update as fast as possible
pox.update();
// Asynchronously dump heart rate and oxidation levels to the serial
// For both, a value of 0 means "invalid"
if (millis() - tsLastReport > REPORTING_PERIOD_MS) {
// Serial.print("Heart rate:");
// Serial.print(pox.getHeartRate());
// Serial.print("bpm / SpO2:");
// Serial.print(pox.getSpO2());
// Serial.println("%");
heart_rate_send[7]=(uint32_t)pox.getHeartRate();
Serial.write(heart_rate_send,8);
Sop2_send[7]=pox.getSpO2();
Serial.write(Sop2_send,8);
tsLastReport = millis();
}
}
Compile the code, download it to the Arduino serial display LCD development board, and you're ready to start testing.
We can see that when the fingers leave the MAX30100, the heart rate and blood oxygen display 0. Place your finger on the MAX30100 collector to see your heart rate and blood oxygen levels in real-time.

LCD Arduino project effect can be seen in the following picture:


https://preview.redd.it/k9u0jtg040a51.jpg?width=510&format=pjpg&auto=webp&s=1e9994109a072807a802eb1179b874f727aeff5a
https://preview.redd.it/0ow2lfg040a51.jpg?width=576&format=pjpg&auto=webp&s=b0f5f6ac073894c8b0c033549fce79fac1c90bc3
submitted by Tamesliu to arduino [link] [comments]

LCD Arduino + STONE HMI + Display Heart Rate

LCD Arduino project brief introduction

Some time ago, I found a heart rate sensor module MAX30100 in shopping online. This module can collect blood oxygen and heart rate data of users, which is also simple and convenient to use.
According to the data, I found that there are libraries of MAX30100 in the Arduino library files. That is to say, if I use the communication between LCD Arduino and MAX30100, I can directly call the Arduino library files without having to rewrite the driver files. This is a good thing, so I bought the module of MAX30100.
I decided to use Arduino to verify the heart rate and blood oxygen collection function of MAX30100. With STONE TFT LCD screen for monitoring blood pressure.

https://preview.redd.it/fbm2i8e32o251.jpg?width=328&format=pjpg&auto=webp&s=20329c7187f3fdf628106e923453fdf588fe69ab
Note: this module by default only with 3.3 V level MCU communications, because it defaults to using IIC pin pull up the resistance of 4.7 K to 1.8 V, so there is no communication with the Arduino by default, if you want to commune with the Arduino and need two 4.7 K of the IIC pin pull-up resistor connected to the VIN pin, these contents will be introduced in the back of the chapter.

Functional assignments

Before starting this project, I thought about some simple features:
• Heart rate data and blood oxygen data were collected
• Heart rate and blood oxygen data are displayed through an LCD screen
These are the only two features, but if we want to implement it, we need to do more thinking:
• What master MCU is used?
• What kind of LCD display?
As we mentioned earlier, we use Arduino for the MCU, but this is an LCD Arduino project, so we need to choose the appropriate LCD display module. I plan to use the LCD display screen with a serial port. I have a STONE STVI070WT-01 displayer here, but if Arduino needs to communicate with it, MAX3232 is needed to do the level conversion.
Then the basic electronic materials are determined as follows:
  1. Arduino Mini Pro development board
  2. MAX30100 heart rate and blood oxygen sensor module
  3. STONE STVI070WT-01 LCD serial port display module
  4. MAX3232 module

Hardware Introduction

MAX30100

The MAX30100 is an integrated pulse oximetry and heart rate monitor sensor solution. It combines two LEDs, a photodetector, optimized optics, and low-noise analog signal processing to detect pulse oximetry and heart-rate signals. The MAX30100 operates from 1.8V and 3.3V power supplies and can be powered down through software with negligible standby current, permitting the power supply to remain connected at all times.

Applications

● Wearable Devices
● Fitness Assistant Devices
● Medical Monitoring Devices

Benefits and Features

1、Complete Pulse Oximeter and Heart-Rate SensorSolution Simplifies Design
• Integrated LEDs, Photo Sensor, and high-Performance Analog Front -End
• Tiny 5.6mm x 2.8mm x 1.2mm 14-Pin OpticallyEnhanced System-in-Package
2、Ultra-Low-Power Operation Increases Battery Life for wearable Devices
• Programmable Sample Rate and LED Current for Power Savings
• Ultra-Low Shutdown Current (0.7µA, typ)
3、Advanced Functionality Improves Measurement Performance
• High SNR Provides Robust Motion Artifact Resilience
• Integrated Ambient Light Cancellation
• High Sample Rate Capability
• Fast Data Output Capability

Detection Principle


https://preview.redd.it/kgu72wk52o251.jpg?width=817&format=pjpg&auto=webp&s=0b44a5b4b476c50c1cbd311f048313777d06cabb
Just press your finger against the sensor to estimate pulse oxygen saturation (SpO2) and pulse (equivalent to heartbeat).
The pulse oximeter (oximeter) is a mini-spectrometer that USES the principles of different red cell absorption spectra to analyze the oxygen saturation of the blood. This real-time and rapid measurement method is also widely used in many clinical references.
I will not introduce the MAX30100 too much, because these materials are available on the Internet. Interested friends can look up the information of this heart rate test module on the Internet, and have a deeper understanding of its detection principle.

Introduction to the STVI070WT-01 displayer

In this project, I will use the STONE STVI070WT-01 to display the heart rate and blood oxygen data.
The driver chip has been integrated inside the display screen, and there is software for users to use. Users only need to add buttons, text boxes and other logic through the designed UI pictures, and then generate configuration files and download them into the display screen to run.
The display of STVI070WT-01 communicates with MCU through the UART RS232 signal, which means that we need to add a MAX3232 chip to convert the RS232 signal into a TTL signal so that we can communicate with Arduino MCU.

https://preview.redd.it/oacuof082o251.jpg?width=749&format=pjpg&auto=webp&s=d1427adf34689c8a433a2af71c494f7698e4baf8
If you are not sure how to use the MAX3232, please refer to the following pictures:

https://preview.redd.it/u39qtog92o251.jpg?width=653&format=pjpg&auto=webp&s=04cf458bcebcd27ba09f36903e20e7ebe1aaa6f9
If you think the level conversion is too troublesome, you can choose other types of displayers of STONE Tech, some of which can directly output uart-TTL signal.
The official website has detailed information and introduction:
https://www.stoneitech.com/
If you need video tutorials and tutorials to use, you can also find it on the official website.

Development steps

Three steps of STONE display screen development:
• Design the display logic and button logic with STONE TOOL software, and download the design file to the display module.
• MCU communicates with the STONE LCD display module through the serial port.
• With the data obtained in step 2, the MCU does other actions.

STONE TOOL software installation

Download the latest version of the STONE TOOL software (currently TOOL2019) from the website, and install it.
After the software is installed, the following interface will be opened:

https://preview.redd.it/ryc7qjkd2o251.jpg?width=848&format=pjpg&auto=webp&s=72f674b6a2b653562a31735f103aecf2df16199d
Click the "File" button in the upper left corner to create a new project, which we will discuss later.

LCD Arduino

Arduino is an open-source electronic prototype platform that is easy to use and easy to use. It includes the hardware part (various development boards that conform to the Arduino specification) and the software part (Arduino IDE and related development kits).
The hardware part (or development board) consists of a microcontroller (MCU), Flash memory (Flash), and a set of universal input/output interfaces (GPIO), which you can think of as a microcomputer motherboard.
The software part is mainly composed of Arduino IDE on PC, related board-level support package (BSP) and rich third-party function library. With the Arduino IDE, you can easily download the BSP associated with your development board and the libraries you need to write your programs.
Arduino is an open-source platform. So far, there have been many models and many derived controllers, including Arduino Uno, Arduino Nano, Arduino Yun and so on. In addition, the Arduino IDE now not only supports the Arduino series development boards but also adds support for popular development boards such as Intel Galileo and NodeMCU by introducing BSP.
Arduino senses the environment through a variety of sensors, controlling lights, motors and other devices to feedback and influence the environment. The microcontroller on the board can be programmed with an Arduino programming language, compiled into binaries, and burned into the microcontroller. Programming for Arduino is implemented with the Arduino programming language (based on Wiring) and the Arduino development environment (based on Processing). Arduino-based projects can contain Arduino only, as well as Arduino and other software running on PC, and they communicate with each other (such as Flash, Processing, MaxMSP).

HMI for Arduino serial display TFT LCD project development environment

The Arduino development environment is the Arduino IDE, which can be downloaded from the Internet.
Log into the official website of Arduino and download the software
https://www.arduino.cc/en/Main/Software?setlang=cn
After installing the Arduino IDE, the following interface will appear when you open the software:

https://preview.redd.it/2fcfnrkg2o251.jpg?width=567&format=pjpg&auto=webp&s=9b6664d15fb99c31ee91c49be56d9eb9e17e04de
The Arduino IDE creates two functions by default: the setup function and the loop function.
There are many Arduino introductions on the Internet. If you don't understand something, you can go to the Internet to find it.

LCD Arduino Project implementation process

hardware connection

To ensure that the next step in writing code goes smoothly, we must first determine the reliability of the hardware connection.
Only four pieces of hardware were used in this project:
  1. Arduino Mini pro development board
  2. STONE STVI070WT-01 tft-lcd display screen
  3. MAX30100 heart rate and blood oxygen sensor
  4. MAX3232 (rs232-> TTL)
The Arduino Mini Pro development board and STVI070WT tft-lcd display screen are connected through UART, which requires level conversion through MAX3232, and then the Arduino Mini Pro development board and MAX30100 module are connected through IIC interface.After thinking clearly, we can draw the following wiring picture:

https://preview.redd.it/xkpv7bxi2o251.jpg?width=769&format=pjpg&auto=webp&s=b3658c7c455ba97c6f3a961e34ed020059201b8b

https://preview.redd.it/zobnoatl2o251.jpg?width=1091&format=pjpg&auto=webp&s=2263d1d5a6d208b6e9c1110334971a1d34ed742c
Make sure there are no errors in the hardware connection and proceed to the next step.

STONE TFT LCD user interface design

First of all, we need to design a UI display image, which can be designed by PhotoShop or other image design tools. After designing the UI display image, save the image in JPG format.
Open the software STONE TOOL 2019 and create a new project:

https://preview.redd.it/ou27uc4o2o251.jpg?width=1004&format=pjpg&auto=webp&s=e559c55a3d4fb014fc35dd94bca4d7a52938c87f

https://preview.redd.it/j7mkexnp2o251.jpg?width=871&format=pjpg&auto=webp&s=eb80865fd5efe45a5b015790f0fd0c02f07ca069
Remove the image that was loaded by default in the new project, and add the UI image that we designed.
Add the text display component, design the display digit and decimal point, get the storage location of the text display component in the displayer.
The effect is as follows:

https://preview.redd.it/y7333lor2o251.jpg?width=1335&format=pjpg&auto=webp&s=501576a9d57e92b1435bc25406612a0f758038a5
Text display component address:
• Connection sta : 0x0008
• Heart rate : 0x0001
• Blood oxygen : 0x0005
The main contents of the UI interface are as follows:
• Connection status
• Heart rate display
• Blood oxygen showed

Generate configuration file

Once the UI design is complete, the configuration file can be generated and downloaded to the STVI070WT-01 displaye.

https://preview.redd.it/c94grplt2o251.jpg?width=606&format=pjpg&auto=webp&s=ab0a7306791341599fbb874c63638f1066e5f1d9
First, perform step 1, then insert the USB flash drive into the computer, and the disk symbol will be displayed. Then click "Download to u-disk" to Download the configuration file to the USB flash drive, and then insert the USB flash drive into STVI070WT-01 to complete the upgrade.

MAX30100

MAX30100 communicates via IIC. Its working principle is that the ADC value of heart rate can be obtained through infrared led irradiation. The MAX30100 register can be divided into five categories: state register, FIFO, control register, temperature register, and ID register. The temperature register reads the temperature value of the chip to correct the deviation caused by the temperature. The ID register can read the chip's ID number.

https://preview.redd.it/dfomjb1z2o251.jpg?width=848&format=pjpg&auto=webp&s=911b174be98448c64002c1a24fa6528ce56ae3b7
MAX30100 is connected with the Arduino Mini Pro development board through the IIC communication interface. Because there are ready-made MAX30100 library files in the Arduino IDE, we can read the heart rate and blood oxygen data without studying the registers of MAX30100.
For those who are interested in exploring the MAX30100 register, see the MAX30100 Datasheet.

Modify the MAX30100 IIC pull-up resistor

It should be noted that the 4.7k pull-up resistance of the IIC pin of MAX30100 module is connected to 1.8v, which is not a problem in theory. However, the communication logic level of the Arduino IIC pin is 5V, so it cannot communicate with Arduino without changing the hardware of the MAX30100 module.Direct communication is possible if the MCU is STM32 or another 3.3v logic level MCU.
Therefore, the following changes need to be made:

https://preview.redd.it/l5cimq013o251.jpg?width=521&format=pjpg&auto=webp&s=9fc29401ed402b9bf623c4f8e474336c8050fae8
Remove the three 4.7k resistors marked in the picture with an electric soldering iron. Then weld two resistors of 4.7k at the pins of SDA and SCL to VIN, so that we can communicate with Arduino.

Arduino serial display LCD

Open the Arduino IDE and find the following buttons:

https://preview.redd.it/w9mska373o251.jpg?width=853&format=pjpg&auto=webp&s=fe0ee068c64ce109028dab4f5898335ded02c82e
Search for "MAX30100" to find two libraries for MAX30100, then click download and install.

https://preview.redd.it/pqlihp9a3o251.jpg?width=933&format=pjpg&auto=webp&s=493965c54d1cc755a0dd2ac98ad6100cf7c93948
After the installation, you can find the Demo of MAX30100 in the LIB library folder of LCD Arduino:

https://preview.redd.it/srk2g83c3o251.jpg?width=911&format=pjpg&auto=webp&s=da696328a0a198c0ee41a17a7811024d36a153ea
Double-click the file to open it.

https://preview.redd.it/lc8z3gtd3o251.jpg?width=819&format=pjpg&auto=webp&s=bbac5eb529e4279792c899d738ebdb0fa9263c54
This Demo can be directly tested. If the hardware connection is ok, you can download the code compilation into the Arduibo development board and see the data of MAX30100 in the serial debugging tool.
The complete code is as follows:
/*
Arduino-MAX30100 oximetry / heart rate integrated sensor library
Copyright (C) 2016 OXullo Intersecans
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include "MAX30100_PulseOximeter.h"
#define REPORTING_PERIOD_MS 1000
// PulseOximeter is the higher level interface to the sensor
// it offers:
// * beat detection reporting
// * heart rate calculation
// * SpO2 (oxidation level) calculation
PulseOximeter pox;
uint32_t tsLastReport = 0;
// Callback (registered below) fired when a pulse is detected
void onBeatDetected()
{
Serial.println("Beat!");
}
void setup()
{
Serial.begin(115200);
Serial.print("Initializing pulse oximeter..");
// Initialize the PulseOximeter instance
// Failures are generally due to an improper I2C wiring, missing power supply
// or wrong target chip
if (!pox.begin()) {
Serial.println("FAILED");
for(;;);
} else {
Serial.println("SUCCESS");
}
// The default current for the IR LED is 50mA and it could be changed
// by uncommenting the following line. Check MAX30100_Registers.h for all the
// available options.
// pox.setIRLedCurrent(MAX30100_LED_CURR_7_6MA);
// Register a callback for the beat detection
pox.setOnBeatDetectedCallback(onBeatDetected);
}
void loop()
{
// Make sure to call update as fast as possible
pox.update();
// Asynchronously dump heart rate and oxidation levels to the serial
// For both, a value of 0 means "invalid"
if (millis() - tsLastReport > REPORTING_PERIOD_MS) {
Serial.print("Heart rate:");
Serial.print(pox.getHeartRate());
Serial.print("bpm / SpO2:");
Serial.print(pox.getSpO2());
Serial.println("%");
tsLastReport = millis();
}
}


https://preview.redd.it/nyuyl4zl3o251.jpg?width=552&format=pjpg&auto=webp&s=58e05bc67a250de6f7b24060290d8a0703624e30
This code is very simple, I believe you can understand it at a glance. I have to say that the modular programming of Arduino is very convenient, and I don't even need to understand how the driver code of Uart and IIC is implemented.
Of course, the above code is an official Demo, and I still need to make some changes to display the data to STONE's displayer.

Display data to the STONE display through Arduino LCD

First, we need to get the address of the component that displays the heart rate and blood oxygen data in STONE's displayer:
In my project, the address is as follows:
Heart rate display component address: 0x0001
Address of blood oxygen display module: 0x0005
Sensor connection status address: 0x0008
If you need to change the display content in the corresponding space, you can change the display content by sending data to the corresponding address of the display screen through the serial port of Arduino.
The modified code is as follows:
/*
Arduino-MAX30100 oximetry / heart rate integrated sensor library
Copyright (C) 2016 OXullo Intersecans
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include "MAX30100_PulseOximeter.h"
#define REPORTING_PERIOD_MS 1000
#define Heart_dis_addr 0x01
#define Sop2_dis_addr 0x05
#define connect_sta_addr 0x08
unsigned char heart_rate_send[8]= {0xA5, 0x5A, 0x05, 0x82,\
0x00, Heart_dis_addr, 0x00, 0x00};
unsigned char Sop2_send[8]= {0xA5, 0x5A, 0x05, 0x82, 0x00, \
Sop2_dis_addr, 0x00, 0x00};
unsigned char connect_sta_send[8]={0xA5, 0x5A, 0x05, 0x82, 0x00, \
connect_sta_addr,0x00, 0x00};
// PulseOximeter is the higher level interface to the sensor
// it offers:
// * beat detection reporting
// * heart rate calculation
// * SpO2 (oxidation level) calculation
PulseOximeter pox;
uint32_t tsLastReport = 0;
// Callback (registered below) fired when a pulse is detected
void onBeatDetected()
{
// Serial.println("Beat!");
}
void setup()
{
Serial.begin(115200);
// Serial.print("Initializing pulse oximeter..");
// Initialize the PulseOximeter instance
// Failures are generally due to an improper I2C wiring, missing power supply
// or wrong target chip
if (!pox.begin()) {
// Serial.println("FAILED");
// connect_sta_send[7]=0x00;
// Serial.write(connect_sta_send,8);
for(;;);
} else {
connect_sta_send[7]=0x01;
Serial.write(connect_sta_send,8);
// Serial.println("SUCCESS");
}
// The default current for the IR LED is 50mA and it could be changed
// by uncommenting the following line. Check MAX30100_Registers.h for all the
// available options.
pox.setIRLedCurrent(MAX30100_LED_CURR_7_6MA);
// Register a callback for the beat detection
pox.setOnBeatDetectedCallback(onBeatDetected);
}
void loop()
{
// Make sure to call update as fast as possible
pox.update();
// Asynchronously dump heart rate and oxidation levels to the serial
// For both, a value of 0 means "invalid"
if (millis() - tsLastReport > REPORTING_PERIOD_MS) {
// Serial.print("Heart rate:");
// Serial.print(pox.getHeartRate());
// Serial.print("bpm / SpO2:");
// Serial.print(pox.getSpO2());
// Serial.println("%");
heart_rate_send[7]=(uint32_t)pox.getHeartRate();
Serial.write(heart_rate_send,8);
Sop2_send[7]=pox.getSpO2();
Serial.write(Sop2_send,8);
tsLastReport = millis();
}
}

Compile the code, download it to the Arduino serial display LCD development board, and you're ready to start testing.
We can see that when the fingers leave the MAX30100, the heart rate and blood oxygen display 0. Place your finger on the MAX30100 collector to see your heart rate and blood oxygen levels in real-time.

LCD Arduino project effect can be seen in the following picture:


https://preview.redd.it/lf120a5s3o251.jpg?width=510&format=pjpg&auto=webp&s=d705a9e10bac1758afc554036a31748c5f73d255
submitted by woodkiki to ArduinoProjects [link] [comments]

Help with an error making an https request with c++

I'm attempting to do an HTTPS PUT from C++ on an ESP-EYE. I started with the C esp_https_example code and had that working with the same PEM and URL. I started to transition to using this from C++ as part of a project that is primarily written in C++. My call looks like:
```cpp static const char *URL = "https://signal.unexpectedeof.casa/on-air";
void https_with_url(void) { esp_http_client_config_t* config = (esp_http_client_config_t*)calloc(sizeof(esp_http_client_config_t), 1); config->url = URL; config->cert_pem = unexpectedeof_casa_root_cert_pem_start; config->event_handler = _http_event_handler;
esp_http_client_handle_t client = esp_http_client_init(config); esp_http_client_set_method(client, HTTP_METHOD_PUT); esp_err_t err = esp_http_client_perform(client); if (err == ESP_OK) { ESP_LOGI(TAG, "HTTPS Status = %d, content_length = %d", esp_http_client_get_status_code(client), esp_http_client_get_content_length(client)); } else { ESP_LOGE(TAG, "Error perform http request %s", esp_err_to_name(err)); } esp_http_client_close(client); esp_http_client_cleanup(client); 
} ```
I believe the URL I'm providing isn't being copied or initialized correctly resulting in a url parsing error. When the function https_with_url is called I get this error:
text E (13593) esp-tls: couldn't get hostname for :signal.unexpectedeof.casa: E (13593) esp-tls: Failed to open new connection E (13603) TRANS_SSL: Failed to open a new connection E (13603) HTTP_CLIENT: Connection failed, sock < 0 E (13613) HTTPS_HANDLING: Error perform http request ESP_ERR_HTTP_CONNECT I (13623) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED I (13623) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED
This is the full output from flash and monitor: ```text (38) tron:smalltalk n0mn0m$ idf.py --port /dev/cu.SLABUSBtoUART flash monitor Adding "flash"'s dependency "all" to list of commands with default set of options. Executing action: all (aliases: build) Running ninja in directory /Users/n0mn0m/projects/on-aivoice-assistant/smalltalk/build Executing "ninja all"... [1/3] Performing build step for 'bootloader' ninja: no work to do. Executing action: flash Running esptool.py in directory /Users/n0mn0m/projects/on-aivoice-assistant/smalltalk/build Executing "/Users/n0mn0m/.espressif/python_env/idf4.1_py3.8_env/bin/python /Users/n0mn0m/projects/esp-idf/components/esptool_py/esptool/esptool.py -p /dev/cu.SLAB_USBtoUART -b 460800 --before default_reset --after hard_reset --chip esp32 write_flash @flash_project_args"... esptool.py -p /dev/cu.SLAB_USBtoUART -b 460800 --before default_reset --after hard_reset --chip esp32 write_flash --flash_mode dio --flash_freq 80m --flash_size 2MB 0x8000 partition_table/partition-table.bin 0x1000 bootloadebootloader.bin 0x10000 smalltalk.bin esptool.py v2.9-dev Serial port /dev/cu.SLAB_USBtoUART Connecting........_ Chip is ESP32D0WDQ5 (revision 1) Features: WiFi, BT, Dual Core, 240MHz, VRef calibration in efuse, Coding Scheme None Crystal is 40MHz MAC: bc:dd:c2:d0:23:4c Uploading stub... Running stub... Stub running... Changing baud rate to 460800 Changed. Configuring flash size... Compressed 3072 bytes to 103... Wrote 3072 bytes (103 compressed) at 0x00008000 in 0.0 seconds (effective 2319.8 kbit/s)... Hash of data verified. Compressed 25776 bytes to 15970... Wrote 25776 bytes (15970 compressed) at 0x00001000 in 0.4 seconds (effective 562.7 kbit/s)... Hash of data verified. Compressed 950960 bytes to 601726... Wrote 950960 bytes (601726 compressed) at 0x00010000 in 14.0 seconds (effective 545.1 kbit/s)... Hash of data verified.
Leaving... Hard resetting via RTS pin... Executing action: monitor Running idf_monitor in directory /Users/n0mn0m/projects/on-aivoice-assistant/smalltalk Executing "/Users/n0mn0m/.espressif/python_env/idf4.1_py3.8_env/bin/python /Users/n0mn0m/projects/esp-idf/tools/idf_monitor.py -p /dev/cu.SLAB_USBtoUART -b 115200 --toolchain-prefix xtensa-esp32-elf- /Users/n0mn0m/projects/on-aivoice-assistant/smalltalk/build/smalltalk.elf -m '/Users/n0mn0m/.espressif/python_env/idf4.1_py3.8_env/bin/python' '/Users/n0mn0m/projects/esp-idf/tools/idf.py' '--port' '/dev/cu.SLAB_USBtoUART'"... --- idf_monitor on /dev/cu.SLAB_USBtoUART 115200 --- --- Quit: Ctrl+] | Menu: Ctrl+T | Help: Ctrl+T followed by Ctrl+H --- ets Jun 8 2016 00:22:57
rst:0x1 (POWERON_RESET),boot:0x13 (SPI_FAST_FLASH_BOOT) configsip: 0, SPIWP:0xee clk_drv:0x00,q_drv:0x00,d_drv:0x00,cs0_drv:0x00,hd_drv:0x00,wp_drv:0x00 mode:DIO, clock div:1 load:0x3fff0030,len:4 load:0x3fff0034,len:7348 load:0x40078000,len:13764 ho 0 tail 12 room 4 load:0x40080400,len:4568 0x40080400: _init at ??:?
entry 0x400806a4 I (31) boot: ESP-IDF v4.1-beta1-63-g9f024df9e 2nd stage bootloader I (31) boot: compile time 19:31:39 I (31) boot: chip revision: 1 I (35) boot_comm: chip revision: 1, min. bootloader chip revision: 0 I (42) qio_mode: Enabling default flash chip QIO I (47) boot.esp32: SPI Speed : 80MHz I (52) boot.esp32: SPI Mode : QIO I (57) boot.esp32: SPI Flash Size : 2MB I (61) boot: Enabling RNG early entropy source... I (67) boot: Partition Table: I (70) boot: ## Label Usage Type ST Offset Length I (77) boot: 0 nvs WiFi data 01 02 00009000 00006000 I (85) boot: 1 phy_init RF data 01 01 0000f000 00001000 I (92) boot: 2 factory factory app 00 00 00010000 00100000 I (100) boot: End of partition table I (104) boot_comm: chip revision: 1, min. application chip revision: 0 I (111) esp_image: segment 0: paddr=0x00010020 vaddr=0x3f400020 size=0x289f8 (166392) map I (169) esp_image: segment 1: paddr=0x00038a20 vaddr=0x3ffb0000 size=0x03914 ( 14612) load I (174) esp_image: segment 2: paddr=0x0003c33c vaddr=0x40080000 size=0x00404 ( 1028) load 0x40080000: _WindowOverflow4 at /Users/n0mn0m/projects/esp-idf/components/freertos/xtensa_vectors.S:1778
I (176) esp_image: segment 3: paddr=0x0003c748 vaddr=0x40080404 size=0x038d0 ( 14544) load I (190) esp_image: segment 4: paddr=0x00040020 vaddr=0x400d0020 size=0xa6224 (680484) map 0x400d0020: _stext at ??:?
I (394) esp_image: segment 5: paddr=0x000e624c vaddr=0x40083cd4 size=0x12040 ( 73792) load 0x40083cd4: bootloader_flash_gpio_config at /Users/n0mn0m/projects/esp-idf/components/bootloader_support/src/bootloader_flash_config_esp32.c:86
I (432) boot: Loaded app from partition at offset 0x10000 I (432) boot: Disabling RNG early entropy source... I (432) cpu_start: Pro cpu up. I (436) cpu_start: Application information: I (441) cpu_start: Project name: smalltalk I (446) cpu_start: App version: cbf78b2-dirty I (451) cpu_start: Compile time: Mar 28 2020 19:31:31 I (458) cpu_start: ELF file SHA256: 0049965a7b4339c3... I (464) cpu_start: ESP-IDF: v4.1-beta1-63-g9f024df9e I (470) cpu_start: Starting app cpu, entry point is 0x4008127c 0x4008127c: call_start_cpu1 at /Users/n0mn0m/projects/esp-idf/components/esp32/cpu_start.c:275
I (0) cpu_start: App cpu up. I (480) heap_init: Initializing. RAM available for dynamic allocation: I (487) heap_init: At 3FFAE6E0 len 00001920 (6 KiB): DRAM I (493) heap_init: At 3FFBD6B8 len 00022948 (138 KiB): DRAM I (500) heap_init: At 3FFE0440 len 00003AE0 (14 KiB): D/IRAM I (506) heap_init: At 3FFE4350 len 0001BCB0 (111 KiB): D/IRAM I (512) heap_init: At 40095D14 len 0000A2EC (40 KiB): IRAM I (518) cpu_start: Pro cpu start user code I (536) spi_flash: detected chip: generic I (536) spi_flash: flash io: qio W (536) spi_flash: Detected size(4096k) larger than the size in the binary image header(2048k). Using the size in the binary image header. I (547) cpu_start: Starting scheduler on PRO CPU. I (0) cpu_start: Starting scheduler on APP CPU. I (673) wifi: wifi driver task: 3ffcad94, prio:23, stack:3584, core=0 I (673) system_api: Base MAC address is not set, read default base MAC address from BLK0 of EFUSE I (673) system_api: Base MAC address is not set, read default base MAC address from BLK0 of EFUSE I (703) wifi: wifi firmware version: 551ce8d I (703) wifi: config NVS flash: enabled I (703) wifi: config nano formating: disabled I (703) wifi: Init dynamic tx buffer num: 32 I (703) wifi: Init data frame dynamic rx buffer num: 32 I (713) wifi: Init management frame dynamic rx buffer num: 32 I (713) wifi: Init management short buffer num: 32 I (723) wifi: Init static rx buffer size: 1600 I (723) wifi: Init static rx buffer num: 10 I (733) wifi: Init dynamic rx buffer num: 32 I (823) phy: phy_version: 4180, cb3948e, Sep 12 2019, 16:39:13, 0, 0 I (823) wifi: mode : sta (bc:dd:c2:d0:23:4c) I (863) I2S: DMA Malloc info, datalen=blocksize=600, dma_buf_count=3 I (863) I2S: DMA Malloc info, datalen=blocksize=600, dma_buf_count=3 I (873) I2S: PLL_D2: Req RATE: 16000, real rate: 16025.000, BITS: 16, CLKM: 39, BCK: 8, MCLK: 4096000.000, SCLK: 512800.000000, diva: 64, divb: 4 I (943) wifi: new:<1,0>, old:<1,0>, ap:<255,255>, sta:<1,0>, prof:1 I (943) wifi: state: init -> auth (b0) I (953) wifi: state: auth -> assoc (0) I (953) wifi: state: assoc -> run (10) I (963) wifi: connected with Hallow, aid = 1, channel 1, BW20, bssid = 18:e8:29:c4:90:55 I (963) wifi: security type: 3, phy: bgn, rssi: -41 I (973) wifi: pm start, type: 1
I (983) wifi: AP's beacon interval = 102400 us, DTIM period = 2 I (993) TF_LITE_AUDIO_PROVIDER: Audio Recording started Waking up Waking up E (13593) esp-tls: couldn't get hostname for :signal.unexpectedeof.casa: E (13593) esp-tls: Failed to open new connection E (13603) TRANS_SSL: Failed to open a new connection E (13603) HTTP_CLIENT: Connection failed, sock < 0 E (13613) HTTPS_HANDLING: Error perform http request ESP_ERR_HTTP_CONNECT I (13623) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED I (13623) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED E (14013) esp-tls: couldn't get hostname for :signal.unexpectedeof.casa: E (14013) esp-tls: Failed to open new connection E (14013) TRANS_SSL: Failed to open a new connection E (14013) HTTP_CLIENT: Connection failed, sock < 0 E (14023) HTTPS_HANDLING: Error perform http request ESP_ERR_HTTP_CONNECT I (14033) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED I (14033) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED E (14913) esp-tls: couldn't get hostname for :signal.unexpectedeof.casa: E (14913) esp-tls: Failed to open new connection E (14913) TRANS_SSL: Failed to open a new connection E (14923) HTTP_CLIENT: Connection failed, sock < 0 E (14923) HTTPS_HANDLING: Error perform http request ESP_ERR_HTTP_CONNECT I (14933) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED I (14933) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED E (15213) esp-tls: couldn't get hostname for :signal.unexpectedeof.casa: E (15213) esp-tls: Failed to open new connection E (15213) TRANS_SSL: Failed to open a new connection E (15223) HTTP_CLIENT: Connection failed, sock < 0 E (15223) HTTPS_HANDLING: Error perform http request ESP_ERR_HTTP_CONNECT I (15233) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED I (15233) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED E (15513) esp-tls: couldn't get hostname for :signal.unexpectedeof.casa: E (15513) esp-tls: Failed to open new connection E (15513) TRANS_SSL: Failed to open a new connection E (15513) HTTP_CLIENT: Connection failed, sock < 0 E (15523) HTTPS_HANDLING: Error perform http request ESP_ERR_HTTP_CONNECT I (15533) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED I (15533) HTTPS_HANDLING: HTTP_EVENT_DISCONNECTED ```
main init
http call
full build project
My current thinking is it's related to using C++ and the underlying parsing that's happening. The wifi is initialized and connected, the PEM and url work testing with the C example. Appreciate any help or ideas.
submitted by Tak_Locke to esp32 [link] [comments]

[Megathread] XMG FUSION 15 (with Intel)


On September 6 at IFA, press released their first reports about our collaboration project with Intel: XMG FUSION 15.
Community Links:

Press Links:

Video Links:

The following key facts have already been revealed:
Prices and availability will be announced on September 17. → Countdown to xmg.gg
Teaser Trailer on YouTube: XMG FUSION 15 Laptop | A Design Collaboration with Intel
We look forward to your questions and your feedback!

XMG FUSION 15 - FREQUENTLY ASKED QUESTIONS (FAQ)

This FAQ represents Q&A's over the last few days here. Fellow redditor u/iterateandgit was so kind to help me putting this document together. Big shout out to him please! The FAQ will be further extended over the coming days and weeks. Please keep the questions coming!

Sales, Shipping, Warranty


Q: Are you going to sell this on Amazon in the EU?
A: We are working on getting the product up and running on Amazon. But our own BTO shop at www.bestware.com will always be our primary sales channel and will be the only one where you can customize and configure memory, storage, OS, extend your warranty and pick other options.

Q: Do you offer student discounts or other sales compaigns like black friday?
A: In general, we don't offer student discounts. Sales campaigns are planned just in time, depending on stock level and cannot be announced early. If you want to keep up to date about sales campaigns, please subscribe to our newsletter.

Q: Do you ship to the UK? Can I pay in GBP?
A: We ship to the UK - the pricing will be in EUR, so your bank will do the conversion. Warranty services will be available from UK, shipping to Germany. Currently, in the single markets, these resturn shipments are free for the end-user. In the worst case there might be additional customs fees for shipping.

Q: What warranty options do you offer?
A: All our laptops come with 2 year warranty. Warranty repairs in the first 6 months are promised to be done within 48 hours (+shipping). Both the "instant repair" service and the warranty itself can be extended to up to 3 years.

Q: Do you sell outside of Europe?
A: We are able to ship anywhere, but warranty for customers outside the region would always involve additional customs cost and paperwork for sending the laptop back to Germany in the rare event of an RMA. There is currently no agreement to let other Local OEMs (like Eluktronics in the US) carry the warranty for XMG customers and vice-versa. Some parts are customized (in our case the LCD lid and the keyboard) and it won't be easy to agree on how to share handling fees etc. - so I wouldn't expect a global warranty anytime soon.


Hardware, Specs, Thermals


Q: What is the difference between XMG FUSION 15 and other laptops based on Intel's reference design?
A: The hardware of the barebone will be identical. Other Local OEMs might use different parts for RAM and SSDs. Our branding and service/warranty options might be different. We apply our own set of performance profiles in the Control Center. This will rebalance the differentiation between Silent, Balanced and Enthusiast modes.

Q: What is the TGP of the NVIDIA RTX 2070 Max-Q?
A: Officially, it is 80W in Balanced profile and 90W in Enthusiast profile. You can toggle between these modes in real-time with a dedicated mode switch button. Inofficially, the TGP can go up to 115W in Enthusiast profile thanks to the Overboost mechanic, working in the background. However, those 115W may only be sustained until the system has reached thermal saturation, i.e. when the GPU is approaching the GPU Temperature Target of 75°C.

Q: Can I upgrade the storage and memory after I buy?
A: On storage: The laptop has two m.2 PCI-Express SSD slots. This will give you currently up to 4 TB of SSD storage. There is no 2.5" HDD slot available. Instead, the battery is enlarged to 93.48Wh. You can see pictures of the interior layouts here, here and here.
On memory: the laptop has two SO-DIMM DDR4 memory sockets. You can chose during BTO configuration, if you want to occupy both of them when you order the product. We recommend running the laptop in Dual Channel for high-performance usage.

Q: How easy is to upgrade and repair this laptop?
A: Here are the key facts:
We would give this a solid 8 out of 10 which is pretty high for such a thin&light design. The 2 remaining points are substracted for BGA CPU and GPU, which is unfortunately unavoidable in such a thin design.

Q: Does it support Windows Hello?
A: A Fingerprint-Reader is not available, but the HD webcam comes with Infrared and supports Windows Hello.

Q: Can I get a smaller, lighter charger for this laptop?
A: XMG FUSION 15 requires a 230W power adaptor to provide full performance. If you max out CPU and GPU with furmark and prime, the 230W adapter will be fully utilized.
There are currently two compatible 230W adapters. They have different dimensions but similar weight. Please refer to this comparison table:
XMG FUSION 15 Power Supply Comparsion Table (Google Drive)
Includes shop links. Will be updated with precise weight numbers in the next few days. I also included 120W, 150W and 180W in this table. They all share the same plug (5.5/2.5,, diameter, 12.5mm length). But 120W and 150W are only rated for 19V but the laptop expect 19.5V. Usually this will be compensated by tolerance but we haven't tested how a system would behave under long-term usage with such an adaptor.
In theory, 120W to 180W are enough for charing the laptop and for browsing/web/media. Even a full CPU stress test could easily be handled. But as soon as you use CPU and GPU together, you'll run into the bottleneck and your performance will be reduced.
Comparison pictures:
These 5 pictures show only the relevant 230W chargers.
Again, the weight is about the same.

Q: Is it possible to boot and run the laptop while the lid is kept closed?
A: Closing the lid under load is not recommended because it will limit the airflow and have a bad effect on keyboard and screen. The laptop likes to take air in from the keycaps. With lid closed, the performance might be limited due to reaching temp targets earlier.

Q: Can I get the laptop without the XMG logo? I will be using it in public presentations and I would not like any brand names visible.
A: We cannot ship without XMG logo, but you can use a dbrand skins to cover our logo. We have not yet decided if we want to invest into integrating XMG FUSION 15 into the dbrand shop. But you can already buy 100% compatible skins by using the page of the Eluktronics MAG-15 at dbrand. The chassis dimensions are exactly the same. Please be aware: you have to manually select the option "No Logo Cutout" if you want to buy these skins for your XMG FUSION 15. According to dbrand, there will be most likely no import fees when ordering from the EU as long as the order is below 100€. Check this thread for details.

Q: Will you offer thermal paste upgrades like Thermal Grizzly Kryonaut or Liquid Metal?
A: Our ODMs are using silicon-based, high-performance thermal compund from international manufacturers like Shin-Etsu (Japan) and M.G. (USA). Intel is using MG-860 in this reference design.
These products are used in the industrial sector, so they have no publicly known brand name. Nevertheless, their high thermal conductivity and guaranteed durability provide optimal and long-lasting cooling of your high-performance laptop. The thermal compounds are applied and sealed automatically by the vendor of the thermal components. They are applied in a highly controlled, standardized manner and provide the best balance of thermal performance, production tolerance and product lifetime.
We are considering offering an upgrade to Thermal Grizzly Kryonaut due to popular demand. Will keep you posted on that.

Q: Could you please provide an estimate for how much regular usage (~10 browser tabs + some IDE) battery backup would this have? Will there be any way to trade-off battery backup with performance?
A: Battery life vs. peak performance can be traded off by using the "Silent" performance profile. You can switch between profiles using a dedicated button on the machine. Your scenario (10 tabs + some IDE) sounds like mostly reading and writing. I would estimate to get at least 7 hours of solid battery life in such a scenario, maybe more. We have achieved 8 hours in 1080p Youtube streaming on WiFi with 50% screen brightness. Adblock and NoScript helps to keep your idle browser tabs in check.


I/O Ports, Peripherals


Q: Why are there not more USB-A 3.1 Gen2 or even USB 3.2 Gen2x2 ports?
A: USB-A 3.1 Gen1 is basically the same as USB 3.0. There aren't a lot of USB-A devices that support more than USB 3.0 speed. Faster devices typically use USB-C connectors and can be used on Thunderbolt 3, which is down-compatible to USB-C 3.1 Gen2. One of the USB-A ports actually supports Gen2 speed.
For the following remarks, please keep in mind that I am not an Intel rep, so everything is based on our own experience.
The mainboard design and the I/O port decisions have been made by Intel. Feedback and requests from LOEM customers have been taken into consideration. We would assume that USB 3.2. Gen2x2 (20 Gbit/s) was not considered to be important enough to safe space for 3rd party IC (integrated circuits) on the motherboard. Right now, all the USB ports and Thunderbolts are supplied by Intel's own IC, so they have full control over the hardware, firmware and driver stack and over power saving and performance control. The more IC you add, the higher your Idle power consumption will be, plus adding potential compatibility or speed issues as it often happens with 1st generation 3rd party USB implementations. I very well remember from my own experience the support stories during the first years of USB 3.0, before it was supported in the Intel chipset. On the one hand, Intel is aiming high in terms of performance and convenience, on the other hand: support and reliability still seem to be Intel's goal #1. Thus they seem to play it safe where they deem it to be reasonable.
Intel is gearing up for USB 4.0 and next-gen Thunderbolt. USB 3.2 2x2 is probably treated as little more than a roadmap accident. Peripheral vendors might see it the same way.

Q: Do you support charging over USB-C/Thunderbolt? Does it support docking stations?
A: The Thunderbolt 3 port in Intel's reference design does not support charging. As you probably know, the 100W limit would not be enough to power the whole system and it would make the mainboard more complex to combine two different ways of charging. Intel consciously opted against it and will probably do so again on future high-end gaming/studio models.
The USB-C/Thunderbolt port supports Dual-Link DisplayPort signals, directly connected to the NVIDIA Graphics. This makes proper docking station usage very convenient. The user still needs to connect the external power adaptor. Both ports (Thunderbolt and DC-in) are in the back of the laptop, making the whole setup appear very neat on the desk.

Q: How many PCIe lanes does the Thunderbolt 3 provide? Are they connected to CPU or Chipset?
A: XMG FUSION 15 supports Thunderbolt 3 with 4 lanes of PCIe 3.0. The lanes come from the chipset because all of the CPU lanes (x16) are fully occupied by the dedicated NVIDIA graphics. We are not aware of any side-effects of running Thunderbolt from the chipset. It is common practice for high-end laptops with high-end graphics. The Thunderbolt solution is of course fully validated and certified by Intel's Thunderbolt labs.

Q: Does it have a standby USB to power USB devices without turning on the laptop?
A: Yes, the USB-A port on the left side supports this feature.


LCD Screen


Q: Which LCD panel is being used? Are there plans for 1440p or 4K panels in the laptop? How about PWM flickering?
A: The panel is BOE NV156FHM-N4G. It is currently not known if the panel will change in later batches. This depends on logistics and stock. At any rate, the panel key specs will remain the same. There are currently no plans to offer resolutions above FHD in the current generation of this laptop.
There are very wide ranges on reports of Backlight Brightness PWM control on this panel in different laptops. Ranging from 200Hz to 1000Hz to no PWM at all - all on the same panel model number. Intel informs us that there are many factors (e.g. freq., display driver, BIOS settings implementation, type of dimmers & compatibility with the driver etc.) that impacts the quality of panel dimming performance. To Intel's knowledge, no kind of flickering has been reported during the validation process. Furthermore, first hands-on data from Notebookcheck indicates that no PWM occurs on this panel. With a DSLR test (multiple burst shots at 1/4000s exposure time) I can confirm that there is not a single frame of brightness dipping or black screen, not even at minimum LCD brightness. Hence, we can confirm: BOE NV156FHM-N4G in XMG FUSION 15 (with Intel) does not use PWM for backlight control.

Q: Some BTO shops, for an additional fee, manually pick out display panels with the least back-light bleed. Do you offer that? Even better, do you do that without the extra fee?
A: Intel has validated this design to avoid backlight bleed as much as possible. Currently no plans to do further binning. All dozens of MP samples we have seen so far have been exceptionally good.

Q: I'm coming from a 13" MacBook with Retina display. How am I going to fare with this 15.6" FHD screen in content creation?
A: If you got used to editing high-res visual content (photography, artwork) on your 13inch retina, things will change. On the one hand, your canvas will be larger and more convenient and ergonomic to work with. On the other hand, you will find yourself zooming in more often in order to make out fine-detail. Assuming that you have sharp 20:20 vision.
As it is, the screen resolution and specs are not planned to change within the lifetime of this product. The first realistic time-window for a refresh would be whenever Intel is releasing the next "H" series CPU generation. But even then, an upgrade on resolution will not be guaranteed.
Comparison:
Laptop Resolution Pixel per inch dot pitch
13.3" MacBook Pro Retina (late 2013) 2560x1600 226.98 PPI 0.1119mm
15.6" XMG FUSION 15 (late 2019) 1920x1080 141.21 PPI 0.1799mm
To compare: 141.21 is ~62% from 226.98. This represents the the metric difference in pixel density and peak sharpness between these two models.
If you know the diagonal size and resolution of your screen, you can make this comparison yourself with the DPI/PPI calculator.


Keyboard, Backlight, Switches, Layout


Q: What can you tell us about the mechanical keyboard of XMG FUSION 15?
A: The keyboard has already been reviewed in our XMG NEO series as being more crisp than typical membrane keyboards. Most reviewers attested it a very good score, both for gaming and for writing long texts.
The keyboard backlight can be configured per-key. Default mode is all white.
Keyboard Switch Specs:
Having no frame around the keycaps actually helps the thermals. The fans can pull in additional air from the top. This improves airflow and helps to keep the keyboard temperature at low levels during gaming. It also prevents long-term RMA issues on the keyboard. This specific keyboard switch is already in its 3rd generation and very mature by now.

Q: Is it possible to dampen the mechanical keyboard with o-rings?
A: The switch design does not lend itself to further dampening. The switch mechanic is too complex and has more moving parts than cherry. The 2mm travel distance also plays a role in not allowing more dampening.
For reference, please use this video (Youtube). We compared XMG NEO with another membrane-type keyboard. XMG NEO and FUSION share the same keyboard mechanics with the silent tactile switch and the same sound profile.

Q: Do you have LED keyboard backlight on the secondary key function, like Fn key icons?
A: Please have a look at this picture.
Btw, my working sample has blank keycaps. I took the 3 printed keycaps (F8, F9, F10) from a different sample just to demonstrate the Fn lighting for this picture.
Facts:
In my assesment, the Fn function symbols are clearly visible from the backlight in a dark room. A user should have no difficulty to recognize the icon and reach its function.

Q: Which keyboard layouts do you offer in the EU?
A: The following layouts are available, in alphabetic order: Belgium, Czech, Danish, Dvorak German, Dvorak US, Estonia, French, German, Greek, Italian, Norwegian, Polish for Typists, Portuguese, Russia Latin, Slovakish, Spanish, Swedish / Finnish, Swiss, Turkish, UK, US International (ISO)All these layouts are based on the ISO matrix. See differences between ANSI vs. ISO here.


Operating System


Q: Do you support Linux and dual-boot on XMG FUSION 15?
A: We are in discussion to sell XMG FUSION 15 over Tuxedo with official Linux support. It might take 1 or 2 months to get this running.

Q: Which LAN, Audio and WiFi card vendors will be used? Asking for a friend.
A: From our HWiNFO64 report. (Google Drive link)
LAN: RealTek Semiconductor RTL8168/8111 [PCI\VEN_10EC&DEV_8168&SUBSYS_20868086&REV_15]Audio: Intel(R) Smart Sound Technology (Intel(R) SST) Audio Controller [PCI\VEN_8086&DEV_A348&SUBSYS_20868086&REV_10]WiFi: Intel(R) Wi-Fi 6 AX200 [PCI\VEN_8086&DEV_2723&SUBSYS_00848086&REV_1A], can be replaced.
For more information, please check the linked report file.


Other questions


Q: What would you say are the advantages and differences with other laptops due to the fact the laptop was designed in collaboration with Intel?
A: Disclaimer: I am \not* an Intel rep. The following remarks are based on my personal experience and opinion.*
Advantages:
  1. Very strict quality control on all levels. I can't quote numbers due to NDA, but Intel NUC has extremely low RMA rates, compared to average PC mainboards and systems. Intel is driven by strict internal regulation that strifes for perfection - this applies to the whole chassis, assembly and firmware, not only the mainboard. There are also certain regulations in place, for example in terms of electro-magnetic regulation and skin temperatures. The rating label is littered with regulatory seals from every region of the world, making this laptop especially safe to use.
  2. Access to high-quality material: we have not seen any Gaming Laptops based on Magnesium alloy yet, especially not in the ODM/LOEM ecosystem. The battery cells are also much more dense than what we usually see. Intel has the buying power and the vision to not settle for mediocre parts.
  3. Down-to-earth design: Intel has made this reference design for the ODM/LOEM eco-system. The design does not try to follow any specific corporate identity, thus it does not have any unneccessary "bling bling" like all the others have. Even the Razer Blade with it's sleek shape is quite obnoxious (iny my oppinion) with it's big backlit green snake logo. With XMG FUSION however, we can continue our typical style of "Undercover Gaming".
  4. Security: you can expect stellar support in terms of BIOS and Firmware (TPM, Management Engine) updates whenever any security issues are found. This might also apply to global brands, but ODM/LOEM systems have not always been so quick to react. This is due to the huge fragmentation/customizations in ODM/LOEM systems. Intel however does now allow any fragmentation: every LOEM partner is getting the same firmware. There are many hooks for configurations in this firmware, but the source code / binaries are always the same. This makes support much easier down the line.
Disadvantages:
  1. I can't name many, of course. But I would say the strict validation also makes the partnership less flexible from a product management perspective. There is no plan currently to phase-in any 4K or 300Hz screen (FHD/144Hz ought to be enough for everyone this year) or any Core i9 in this system. Other ODMs might be more open for costly modifications based on low quantities. Intel however has streamlined their production and logistics in a way that gives us (the LOEM) very short lead times and competitive pricing, but will not allow any short-notice upgrades or customizations.

Q: Will there be a 17 inch version?
A: We can neither confirm nor deny plans for a 17 inch version at this point.


[to be continued]
submitted by XMG_gg to XMG_gg [link] [comments]

MAME 0.217

MAME 0.217

What better way to celebrate Christmas than with a new MAME release? That’s right – MAME 0.217 is scheduled for release today. Just a reminder, this will be the last MAME release that we distribute a pre-built 32-bit Windows binary package for. Compiling for 32-bit targets will still be supported, but you’ll have to build MAME releases yourself starting from next month. This will also be the last release with source code distributed in the “zip in zip” archive format. We recommend getting source code by cloning a tagged revision from one of our version control mirrors (GitHub, GitLab or SourceForge), or you can use the P7ZIP tools to extract the self-extracting 7-Zip source archive. For MAME 0.217, we’ve switched the Windows tool chain to GCC 9.2.0, and uploaded an updated tools package (the minimum supported GCC version has not changed).
With all the housekeeping announcements out of the way, we can get to those juicy updates. The most exciting thing this month is the recovery of the Sega Model 1 coprocessor TGP programs for Star Wars Arcade and Wing War, making these games fully playable. We’ve been working on Virtua Fighter as well, and while the graphics are greatly improved, there are still some gameplay issues as of this release. In other arcade emulation news, sasuke has been busy fixing long-standing graphical issues in Nichibutsu games, and AJR has made some nice improvements to the early SNK 6502-based games.
On the home system side, there are some nice Sam Coupé improvements from TwistedTom, support for Apple II paddle controllers, a better Apple II colour palette, and significant improvements to Acorn RiscPC emulation. TV game emulation is progressing steadily, with two Lexibook systems, the Jungle Soft Zone 40, and the MiWi 16-in-1 now working.
For front-end developers, we’ve added data to the XML list format allowing you to handle software lists enabled by slot card devices (there are a few of these for Acorn and Sinclair home computers). The minimaws sample script has been updated to demonstrate a number of tasks related to handling software lists. For MAME contributors, we’ve made save state registration a bit simpler, and more manageable in the debugger.
You can get the source and Windows binary packages from the download page.

MAMETesters Bugs Fixed

New working machines

New working clones

Machines promoted to working

Clones promoted to working

New machines marked as NOT_WORKING

New clones marked as NOT_WORKING

New working software list additions

Software list items promoted to working

New NOT_WORKING software list additions

Source Changes

submitted by cuavas to emulation [link] [comments]

MAME 0.217

MAME 0.217

What better way to celebrate Christmas than with a new MAME release? That’s right – MAME 0.217 is scheduled for release today. Just a reminder, this will be the last MAME release that we distribute a pre-built 32-bit Windows binary package for. Compiling for 32-bit targets will still be supported, but you’ll have to build MAME releases yourself starting from next month. This will also be the last release with source code distributed in the “zip in zip” archive format. We recommend getting source code by cloning a tagged revision from one of our version control mirrors (GitHub, GitLab or SourceForge), or you can use the P7ZIP tools to extract the self-extracting 7-Zip source archive. For MAME 0.217, we’ve switched the Windows tool chain to GCC 9.2.0, and uploaded an updated tools package (the minimum supported GCC version has not changed).
With all the housekeeping announcements out of the way, we can get to those juicy updates. The most exciting thing this month is the recovery of the Sega Model 1 coprocessor TGP programs for Star Wars Arcade and Wing War, making these games fully playable. We’ve been working on Virtua Fighter as well, and while the graphics are greatly improved, there are still some gameplay issues as of this release. In other arcade emulation news, sasuke has been busy fixing long-standing graphical issues in Nichibutsu games, and AJR has made some nice improvements to the early SNK 6502-based games.
On the home system side, there are some nice Sam Coupé improvements from TwistedTom, support for Apple II paddle controllers, a better Apple II colour palette, and significant improvements to Acorn RiscPC emulation. TV game emulation is progressing steadily, with two Lexibook systems, the Jungle Soft Zone 40, and the MiWi 16-in-1 now working.
For front-end developers, we’ve added data to the XML list format allowing you to handle software lists enabled by slot card devices (there are a few of these for Acorn and Sinclair home computers). The minimaws sample script has been updated to demonstrate a number of tasks related to handling software lists. For MAME contributors, we’ve made save state registration a bit simpler, and more manageable in the debugger.
You can get the source and Windows binary packages from the download page.

MAMETesters Bugs Fixed

New working machines

New working clones

Machines promoted to working

Clones promoted to working

New machines marked as NOT_WORKING

New clones marked as NOT_WORKING

New working software list additions

Software list items promoted to working

New NOT_WORKING software list additions

Source Changes

submitted by cuavas to MAME [link] [comments]

Binary Options Pro Signals Review  It's Really Work For ... Secret ║ binary options pro signals login - YouTube Binary options signals  Testing Pocket Option signals ... Binary Options Pro Signals Review - Best Binary Options ... Binary Options Pro Signals Review 2016 New - YouTube NEW STRATEGY ║ binary options pro signals free group - YouTube Price Action Binary Options Signals That Work - YouTube Binary Options Pro Signals  Making Huge Profits from ... Binary Options Pro signals Review - Buyer Review - YouTube MASTER PRO SIGNAL FXX TOOL FOR BINARY TRADING  KING ...

People can download Binary Options Pro Signals to perform these seven days of testing and if they are satisfied with it, then they can buy Binary Options Pro Signals and pay $97 per month. The Binary Options Pro Signals download option is available on the official product page (BinaryOptionsProSignals.com). You should not believe when you read on the internet that Binary Options Pro Signals is ... Most of you already know what binary options are, as you are here for the top tips and tricks on trading binary options. But, for the uninitiated, we will give a short brief. Binary Options are financial instruments that allow you to trade on all kinds of assets such as forex, stocks, futures, crypto, indices, and much more. There are only two ... Binary Options Pro Signals; Binary Options – My secret Strategy 2015 ( HOW I GET $9654 In First Month! ) Binary Options Trading Systems 2016 – Collection Systems Are Most Profitable; Option Robot Review Live Trades! Binary Option Robot Auto Trading Software optionrobot com Review After testing it using the demo account (something other robots don’t offer), I deposited money in my Banc de Binary account and turned the system on auto trade. I checked 3 hours later and my eyes lit up with excitement. I had nearly tripled my deposit amount” Jeff, 43. How AutomatedBinary Works. When you create an account at AutomatedBinary.com and choose a preferred binary options ... While testing the service for my Binary Options Pro Signals review,I got 129 trading signals in three months.This changes of course depending on market conditions.Some weeks I got more some others less. Update: now it sends around 6-11 trading alerts per day. BOPS website advertises that provides a signal success of 72.5% .I won 93 out of the ... Binary Options Pro Signals Review One way of new or experienced traders improving their chances of success in the financial markets is through the use of automated trading software. These are designed to detect signals and trade on them for you; generating profit whilst you are busy dealing with other things. ... Monthly Testing. The binary strategy offers monthly testing where you can view and sample multiple pairs over a duration of 30 days with both spirit and valor strategies. You can check from time to time for more tests to see the pairs harboring highest winning percentages. The binary strategy continues to top the charts with its 15-minute signals that have transformed the binary options market ... Binary Options signals are a major requirement for traders to take trading decisions. The signal industry is large and booming one. There are countless signal providers out there, so it becomes really difficult as a trader to make a choice. For newbie traders, this task can be quite intimidating, but these trading signals are beneficial for them. Trader’s dependency on binary signals is also ... Visit Binary Options Pro Signals Minimum Winning Ratio. At this moment the company promises a minimum winning ratio of 72.5%. In order to understand what this means you will need to know that in order to generate profits all the time most of the time, you need to achieve a winning ratio of around 65%. So, this leaves a profit margin of around 12.5% to 15% to traders. This might not seem much ... Basic Signals. Binary options trading signals that are communicated to you via email with the aim of increasing your ability to profit from trades. These types refer to specific trades and will advise the user whether to "put" or "call" and can often be forwarded by text if required. Signals in this format are less complex than alternatives and can yield impressive profits. Free Signals. Some ...

[index] [11058] [23972] [784] [14564] [13353] [27535] [24311] [20742] [10391] [28490]

Binary Options Pro Signals Review It's Really Work For ...

http://tiny.cc/6437xw - Start making serious money with live trading signals One minute strategy to trade price action trading signals. Watch how I use simple trading rules to increase win rate. Get 10x Trading System: https://trading... http://acquireprofit.com/BinaryOptionsProSignals Binary Options Pro Signals for your favorite commodities, indexes, and currency pairs will be delivered to y... Hello everyone!:) My name is Anastasia, but it's too hard to pronounce, that's why you may call me just ANA. I'm a pro trader for more than 2 years already a... inary Options Pro Signals Review http://tinyurl.com/ovavan5 Gett-Here? DOWNLOAD –Binary Options Signals SCAM? Do NOT Buy Binary Options Pro Signals before yo... Binary options signals Testing Pocket Option signals Hi there! I'm Lady Trader and in this video I'm gonna test the signals of pocket option. Hope it will ... CLICK HERE = http://clktr4ck.com/85usbinaryoptions ----- Binary Options Pro Signals Review - Best Binary Options Make $50,000 Per Month ... Hi Guys this is a new strategy I found and it works great. This is not an investment advice and this video is only to impact on your knowledge. Please try fi... The link to Binary Options Pro Signals 14 day trial : http://bit.do/binary-options A binary option is a fixed return option because there are only 2 possible... Hello everyone!:) My name is Anastasia, but it's too hard to pronounce, that's why you may call me just ANA. I'm a pro trader for more than 2 years already a...

https://binaryoptiontrade.datelan.ga