Kalkulator Power over Ethernet (PoE) untuk menemukan Line Loss, Jarak PoE Maksimum, penurunan tegangan PoE dan resistansi
Kalkulator PoE oleh PoE-World ini akan menghitung daya total yang diperlukan perangkat apa pun termasuk didalamnya kerugian daya pada semua jenis kabel dan kerugian dari panjang kabel, melalui Ethernet atau tidak, juga menghitung penurunan tegangan dan daya yang dibutuhkan oleh: perangkat termasuk kerugian daya pada kabel .
Juga menghitung kerugian daya per jarak kabel.
Maksimum memory Windows
Tabel berikut menunjukan memory maksimum untuk setiap operating systems:
Operating System | Maximum Memory (RAM) |
Mac OS X from 10.10 | 18 Exabyte |
Mac OS X from 10.9 | 128GB |
Mac OS X < 10.9 | 96GB |
Windows 10 Home 32-Bit | 4GB |
Windows 10 Home 64-Bit | 128GB |
Windows 10 Pro 32-Bit | 4GB |
Windows 10 Pro 64-Bit | 2TB |
Windows 10 Pro for Workstation 32-Bit | 4GB |
Windows 10 Pro for Workstation 64-Bit | 6TB |
Windows 10 Enterprise 32-Bit | 4GB |
Windows 10 Enterprise 64-Bit | 6TB |
Windows 10 Education 32-Bit | 4GB |
Windows 10 Education 64-Bit | 128GB |
Windows 8.1 Pro 32-Bit | 4GB |
Windows 8.1 Enterprise 32-Bit | 4GB |
Windows 8.1 64-Bit | 192GB |
Windows 8.1 Pro 64-Bit | 512GB |
Windows 8.1 Enterprise 64-Bit | 512GB |
Windows RT 8 32-Bit | 4GB |
Windows 8 32-Bit | 4GB |
Windows 8 Pro 32-Bit | 4GB |
Windows 8 Enterprise 32-Bit | 4GB |
Windows 8 64-Bit | 192GB |
Windows 8 Pro 64-Bit | 512GB |
Windows 8 Enterprise 64-Bit | 512GB |
Windows 7 Starter 32-Bit | 2GB |
Windows 7 Home Basic 32-Bit | 4GB |
Windows 7 Home Basic 64-Bit | 8GB |
Windows 7 Home Premium 32-Bit | 4GB |
Windows 7 Home Premium 64-Bit | 16GB |
Windows 7 Professional 32-Bit | 4GB |
Windows 7 Professional 64-Bit | 192GB |
Windows 7 Enterprise 32-Bit | 4GB |
Windows 7 Enterprise 64-Bit | 192GB |
Windows 7 Ultimate 32-Bit | 4GB |
Windows 7 Ultimate 64-Bit | 192GB |
Windows Vista Home Basic 32-Bit | 4GB |
Windows Vista Home Basic 64-Bit | 8GB |
Windows Vista Home Premium 32-Bit | 4GB |
Windows Vista Home Premium 64-Bit | 16GB |
Windows Vista Business 32-Bit | 4GB |
Windows Vista Business 64-Bit | 192GB |
Windows Vista Ultimate 32-Bit | 4GB |
Windows Vista Ultimate 64-Bit | 192GB |
Windows Vista Enterprise 32-Bit | 4GB |
Windows Vista Enterprise 64-Bit | 192GB |
Windows XP Home 32-Bit | 4GB |
Windows XP Professional 32-Bit | 4GB |
Windows XP Professional 64-Bit | 128GB |
Windows Server 2019 Essentials | 64GB |
Windows Server 2019 Standard | 24TB |
Windows Server 2019 Datacenter | 24TB |
Windows Server 2016 Essentials | 64GB |
Windows Server 2016 Standard | 24TB |
Windows Server 2016 Datacenter | 24TB |
Windows Server 2012 Foundation | 32GB |
Windows Server 2012 Essentials | 64GB |
Windows Server 2012 Standard | 4TB |
Windows Server 2012 Datacenter | 4TB |
Windows 2008 R2 Server Web 64-Bit | 32GB |
Windows 2008 R2 Server Foundation 64-Bit | 8GB |
Windows 2008 R2 Server Standard 64-Bit | 32GB |
Windows 2008 R2 Server Enterprise 64-Bit | 2TB |
Windows 2008 R2 Server Datacenter 64-Bit | 2TB |
Windows 2008 R2 Server Itanium 64-Bit | 2TB |
Windows 2008 Server Web 32-Bit | 4GB |
Windows 2008 Server Web 64-Bit | 32GB |
Windows 2008 Server Standard 32-Bit | 4GB |
Windows 2008 Server Standard 64-Bit | 32GB |
Windows 2008 Server Enterprise 32-Bit | 64GB |
Windows 2008 Server Enterprise 64-Bit | 2TB |
Windows 2008 Server Datacenter 32-Bit | 64GB |
Windows 2008 Server Datacenter 64-Bit | 2TB |
Windows 2003 Server Standard Edition 32-Bit | 4GB |
Windows 2003 Server Standard Edition 64-Bit | 32GB |
Windows 2003 Server Enterprise Edition 32-Bit | 64GB |
Windows 2003 Server Enterprise Edition 64-Bit | 1TB |
Windows 2003 Server Datacenter Edition 32-Bit | 128GB |
Windows 2003 Server Datacenter Edition 64-Bit | 1TB |
I need to make 100,000 USD within 6 months or my life is busted.
Here’s the plan. Start a video blog and call it “I need to make 100,000 USD within 6 months or my life is busted. ”. I’d really love to see it and it will give you a right direction. Good luck. ;)
SEO Trial keyword
LED with Switch and Memory Bulp
Script
int buttonState = 0;
int buttonNurse = 1;
int buttonNurseOld = 1;
int PortBMem;
int PortCMem;
int PortDMem;
void setup()
{
Serial.begin (9600);
DDRD = B00000000; // sets Arduino pins 0 to 7 as input, pin 0 as input
DDRD = DDRD | B11110000; // this is safer as it sets pins 4 to 7 as inputs
// without changing the value of pins 0 to 3, which are RX & TX
DDRB = B00000000; // sets Arduino pins 8 to 13 as input
DDRB = DDRB | B00111111; // this is safer as it sets pins 8 to 13 as inputs
DDRC = B00001111; // sets Arduino pins A0 to A4 as output
DDRC = DDRC | B00001111; // this is safer as it sets pins 8 to 13 as inputs
PortBMem = 0;
PortCMem = 0;
PortDMem = 0;
PORTC = 0;
/*
pinMode(A0, OUTPUT);
pinMode(A1, OUTPUT);
pinMode(A2, OUTPUT);
pinMode(A3, OUTPUT);
*/
}
void(* resetFunc) (void) = 0; //declare reset function @ address 0
void loop()
{
PortBMem = PINB;
if (PortBMem > B00000000){
PortCMem = PortCMem | B1;
PORTC = PortCMem;
delay(100);
}
PortDMem = PIND;
if ((PortDMem & B11100000)>31){
PortCMem = PortCMem | ((PortDMem >> 4)& B00001110);
PORTC = PortCMem;
delay(100);
}
buttonNurse = digitalRead(4);
if (buttonNurseOld != buttonNurse){
if (buttonNurse == LOW){
PortCMem = 0;
PortDMem = 0;
PORTC = 0;
delay(1000);
//resetFunc(); //call reset
}
buttonNurseOld = buttonNurse;
}
// buttonNurse = digitalRead(4);
delay(10); // Delay a little bit to improve simulation performance
}
int buttonNurse = 1;
int buttonNurseOld = 1;
int PortBMem;
int PortCMem;
int PortDMem;
void setup()
{
Serial.begin (9600);
DDRD = B00000000; // sets Arduino pins 0 to 7 as input, pin 0 as input
DDRD = DDRD | B11110000; // this is safer as it sets pins 4 to 7 as inputs
// without changing the value of pins 0 to 3, which are RX & TX
DDRB = B00000000; // sets Arduino pins 8 to 13 as input
DDRB = DDRB | B00111111; // this is safer as it sets pins 8 to 13 as inputs
DDRC = B00001111; // sets Arduino pins A0 to A4 as output
DDRC = DDRC | B00001111; // this is safer as it sets pins 8 to 13 as inputs
PortBMem = 0;
PortCMem = 0;
PortDMem = 0;
PORTC = 0;
/*
pinMode(A0, OUTPUT);
pinMode(A1, OUTPUT);
pinMode(A2, OUTPUT);
pinMode(A3, OUTPUT);
*/
}
void(* resetFunc) (void) = 0; //declare reset function @ address 0
void loop()
{
PortBMem = PINB;
if (PortBMem > B00000000){
PortCMem = PortCMem | B1;
PORTC = PortCMem;
delay(100);
}
PortDMem = PIND;
if ((PortDMem & B11100000)>31){
PortCMem = PortCMem | ((PortDMem >> 4)& B00001110);
PORTC = PortCMem;
delay(100);
}
buttonNurse = digitalRead(4);
if (buttonNurseOld != buttonNurse){
if (buttonNurse == LOW){
PortCMem = 0;
PortDMem = 0;
PORTC = 0;
delay(1000);
//resetFunc(); //call reset
}
buttonNurseOld = buttonNurse;
}
// buttonNurse = digitalRead(4);
delay(10); // Delay a little bit to improve simulation performance
}
10 Leds Running - Combine PORTB and PORTD
Script
// Lampu LED Berjalan Menggunakan Arduino UNO
// Menyalakan LED dengan Aktif HIGH
int RunBitOld;
int RunBit;
byte RunBitH;
byte RunBitL;
byte RunBitB;
byte RunBitD;
void setup()
{
Serial.begin (9600);
DDRD = B11110000; // sets Arduino pins 4 to 7 as outputs, pin 0 to 3 as input
DDRD = DDRD | B11110000; // this is safer as it sets pins 4 to 7 as outputs
// without changing the value of pins 0 to 3,
DDRB = B00111111; // sets Arduino pins 8 to 13 as outputs
DDRB = DDRB | B00111111; // this is safer as it sets pins 8 to 13 as outputs
PORTD = B11110000; // sets digital pins 4 to 7 HIGH
PORTB = B00111111; // sets digital pins 8 to 13 HIGH
RunBit = B11111111;
RunBitH = B00111111;
RunBitL = B11110000;
}
void loop()
{
//menyala secara bergilir
Serial.print ("RunBitH = ");
Serial.println (RunBitH);
Serial.print ("RunBitL = ");
Serial.println (RunBitL);
PORTB = RunBitH & B00111111;
PORTD = RunBitL & B11110000;
RunBit = (RunBitH * 256) + RunBitL;
Serial.print ("RunBit = ");
Serial.println (RunBit);
RunBit = RunBit >> 1;
Serial.print ("RunBit Geser = ");
Serial.println (RunBit);
RunBitH = (RunBit - RunBitL)/256;
RunBitL = RunBit & B11111111;
if (RunBitL == 0){
RunBitH = B00111111;
RunBitL = B11111111;
}
delay(1000);
}
Data Acquisition Modules
Data Acquisition Modules
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