Forex Simulator works as a plugin to Metatrader. It combines great charting capabilities of MT4 and MT5 with quality tick data and economic calendar to create a powerful trading simulator.
Use charts, templates and drawing tools available in Metatrader.
Forex Simulator lets you move back in time and replay the market starting from any selected day.
You can watch charts, indicators and economic news as if it was happening live...
...but you can also:
Everything works just like in real life, but there is no risk at all!
Watch your profit/loss, equity, drawdown and lots of other numbers and statistics in real time.
You can also export trading results to Excel or create a HTML report.
You can analyze your trading results to find weak points of your strategy.
Trading historical data saves a lot of time compared to demo trading and other forms of paper trading.
It also allows you to adjust the speed of simulation, so you can skip less important periods of time and focus on more important ones.
With practice, you’ll turn those cryptic 1P , B7F , and 702 labels into real, orderable component numbers. Have a 6-pin marking code you can’t crack? Describe the package, markings, and surrounding circuit in the comments – chances are someone has seen it before.
In modern electronics, surface-mount devices (SMDs) rule the board. Among them, the 6-pin package—often SOT-23-6, TSOP-6, or SC-70-6—is ubiquitous. You’ll find it performing critical roles: dual op-amps, voltage regulators, MOSFET drivers, logic gates, analog switches, and even simple microcontrollers. 6 pin smd ic marking code
| Function | Example Full Part | Common Marking Prefix | | --- | --- | --- | | Dual Op-Amp | LMV358, MAX44248 | A, B, M, L | | Voltage Regulator (LDO) | TPS79330, XC6206 | P, K, 65, 33 | | Analog Switch / Mux | TS5A3159, MAX4544 | S, T, 9 | | MOSFET Driver | MCP1401, FAN3100 | D, V | | Single Gate Logic (AND, OR, Inverter) | 74LVC1G04, NC7SZ08 | 04, 08, 32 | | DC-DC Converter | RT8008, MCP1640 | B, C, L | | Comparator | MAX9030, LMV331 | 30, 33 | Let’s say you have a chip marked 1P on a SOT-23-6 board. With practice, you’ll turn those cryptic 1P ,
But there’s a catch. The component’s full part number rarely fits on its tiny body. Instead, you see a cryptic : 2 to 4 alphanumeric characters (e.g., A12 , B7F , 702 , 1P ). In modern electronics, surface-mount devices (SMDs) rule the
SOT-23-6? TSOP-6? SC-70-6? Use calipers if needed.
B7 F B7F is the full marking code. The orientation of the text relative to pin 1 matters. Before you search, know what the IC likely does. 6-pin SMD parts commonly include:
With practice, you’ll turn those cryptic 1P , B7F , and 702 labels into real, orderable component numbers. Have a 6-pin marking code you can’t crack? Describe the package, markings, and surrounding circuit in the comments – chances are someone has seen it before.
In modern electronics, surface-mount devices (SMDs) rule the board. Among them, the 6-pin package—often SOT-23-6, TSOP-6, or SC-70-6—is ubiquitous. You’ll find it performing critical roles: dual op-amps, voltage regulators, MOSFET drivers, logic gates, analog switches, and even simple microcontrollers.
| Function | Example Full Part | Common Marking Prefix | | --- | --- | --- | | Dual Op-Amp | LMV358, MAX44248 | A, B, M, L | | Voltage Regulator (LDO) | TPS79330, XC6206 | P, K, 65, 33 | | Analog Switch / Mux | TS5A3159, MAX4544 | S, T, 9 | | MOSFET Driver | MCP1401, FAN3100 | D, V | | Single Gate Logic (AND, OR, Inverter) | 74LVC1G04, NC7SZ08 | 04, 08, 32 | | DC-DC Converter | RT8008, MCP1640 | B, C, L | | Comparator | MAX9030, LMV331 | 30, 33 | Let’s say you have a chip marked 1P on a SOT-23-6 board.
But there’s a catch. The component’s full part number rarely fits on its tiny body. Instead, you see a cryptic : 2 to 4 alphanumeric characters (e.g., A12 , B7F , 702 , 1P ).
SOT-23-6? TSOP-6? SC-70-6? Use calipers if needed.
B7 F B7F is the full marking code. The orientation of the text relative to pin 1 matters. Before you search, know what the IC likely does. 6-pin SMD parts commonly include:
