pixie

+## voltage drop of diode

+| Diode | Type | Max Current | Typical Vf @ 1A | Notes | |

+| ------------- | -------- | ----------- | --------------- | --------------------------------- | --- |

+| 1N4001–1N4007 | Silicon | 1A | ~0.7V | General-purpose rectifier | |

+| 1N5401–1N5408 | Silicon | 3A | ~0.7–1.0V | Higher current, bulkier | |

+| UF4001–UF4007 | Silicon | 1A | ~0.7V | Ultra-fast silicon version | |

+| 1N5817 | Schottky | 1A | ~0.45V | Good low-drop Schottky | |

+| 1N5819 | Schottky | 1A | ~0.5V | Slightly higher Vf than 1N5817 | |

+| SS14 | Schottky | 1A (avg) | ~0.5V | Compact SMD version | |

+| MBRS140 | Schottky | 1A | ~0.5V | SMD Schottky, low forward drop | |

+| MR754 | Power | 6A | ~1.0–1.1V | High-power stud-mount diode | |

+| BYV29 | Power | 9A | ~0.9–1.2V | Fast recovery, TO-220 | |

+| RHRP8120 | Power | 8A | ~1.0–1.2V | Ultrafast recovery, large package | |

+| SS34 | | 3A | | | 40V |

+

+

+

+1N5401

+TPS54302 4.5-V to 28-V Input, 3-A Output, EMI-Friendly Synchronous Step-Down Converter

+- [[diode-dat]] - [[dcdc-buck-dat]] -

+# DCDC-down-dat

+

+- [[dcdc-down]]

+

+- [[MPS-dat]] - [[MP1658-dat]]

+

+- [[TI-power-dat]] - [[TPS54302-dat]]

+

+- [[silergy-dat]]

+

+- [[XL-dat]] - [[XL4015-dat]] - [[XL1509-dat]]

+

+- [[OPM1192-dat]] - [[OPM1152-dat]]

+

+### LM2596 = input 3~40V

+

+- [[OPM1003-dat]] - [[LM2596-dat]] ADJ Display version

+

+https://www.electrodragon.com/product/lm2596-adj-dc-dc-step-module-high-power-wdisplay/

+

+- [[OPM1026-dat]] - ADJ version

+https://www.electrodragon.com/product/lm2596s-adj-dc-dc-small-tiny-adjustable-step-down-module-3-40vin-1-5-35vout/

+

+- [[6101380-dat]]

+https://www.electrodragon.com/product/lm25xx-regulator-2596-2940/

+

+

+

+### XL4015 = 37V / 5A

+

+- [[OPM1171-dat]]

+- https://www.electrodragon.com/product/dc-dc-step-down-adj-power-module-xl4015-4-38v-5a-96/

+

+

+

+

+

+### Option 401

+

+High Efficiency, 1.2MHz, 50V Input, 0.8A Asynchronous Step Down Regulator

+

+### Option 8201

+

+High Efficiency, Fast Response, 2.0A, 18V Input Synchronous Step Down Regulator

+

+

+

+

+## template

+

+| chip | Co. | Vin | Ipeak | Inorm | freq | package | cost CNY |

+| ------------ | ----------- | --------- | ----- | ----- | ---- | ------- | --------- |

+| TPS5430 | | 5.5-36V | 3A | | | |

+| TPS54331 | | 3.5-28V | 3A | | | SOP-8 |

+| TPS54302 DDCR | [[TI-power-dat]] | 4.5-28V | 3A | | | SOT23-6 | 0.98 |

+| LM2596S-5.0 | | 40V | 3A | | | |

+| TLV62569DBVR | | 2.5V~5.5V | 2A | | | |

+| TPS5450DDAR | | 5.5V~36V | 5A | | | |

+| TPS54560DDAR | | 4.5V~60V | | | | | 30+: 5.37 |

+| XL1509 | [[XL-dat]] | | | | | |

+| LM5164DDAR | | 6V~100V | | | | |

+| MP2143 | [[MPS-dat]] | 24V | 3A | | | |

+

+

+TPS 543x 3A、宽输入范围降压转换器

+

+TPS 5430：5.5V 至 36V

+

+TPS 54331 具有 Eco-mode 的 3A、28V 输入、直流/直流降压转换器

+

+TPS 54202 DDCR

+

+TPS 563201 DDCR

+

+

+MT2492 - 2A,4.5V-16V Input,600kHz Synchronous Step-Down Converter

+ME3116AM6G - 最高输入 40V 带载可达 1A 的 DC/DC 降压型稳压器 ME3116

+

+

+

+- [[dcdc-down-output-dat]]

+

+## circuits

+

+

+

+## ref

+

+- [[LDO-dat]]

+

+- [[XL-dat]] - [[MPS-dat]] - [[silergy-dat]]

+

+- [[dcdc-down]]

+

+# dcdc-bulk-output-dat

+

+

+when Vref = 0.6V

+

+Vout = Vref * (R2/R3+1)

+

+for 5V = 0.6V * (100K / ? + 1 )

+

+100K / R3 = 5V/0.6V - 1 = 7.3333

+100K / R3 = 5.2V/0.6V - 1 = 7.6666

+

+R3 = 13.633K or below 13.3K for 5.2V

+

+

+| output | rough | Rbot | Rtop | Vref |

+| ------ | ----- | ----- | ---- | ---- |

+| 5V | 5.2V | 13.3K | 100K | 0.6V |

+| 4V | 3.93V | 18K | 100K | 0.6V |

+### Y-Axis Right Back Mounting Plate with motor

+

+- [[stepper-dat]]

+- Connect the Motor Shaft and long 8mm shaft together with a [[motor-coupler-dat]].

+- [github](https://github.com/PixiePlacer/PixiePlacer)

+

+- [youtube](https://www.youtube.com/@pixieplacer)

+

+# Shaft-dat

+

+## 8mm

+

+

+## related

+

+- [[shaft-coupler-dat]]

+

+# belt-dat

+

+GT2_Belt_6mm

+

+# belt-sys-dat

+

+

+- [[timing-pulley-dat]] - [[idler-dat]] - [[belt-dat]]

+

+

+

+

+

+

+## ref

+

+- [[belt-sys]]

+

+# idler-dat

+

+## GT2_Idler_20T_5B_6mm

+

+

+

+## ref

+

+- [[idler]]

+

+# timing-pulley-dat

+

+

+| modes | category | teeth | inner diameter | belt width | note |

+| :------------- | :------- | :---- | :------------- | :--------- | :---: |

+| GT2_20T_8B_6mm | 2GT | 20 | 8 | 6 | - |

+

+

+

+

+### GT2_Timing_Pulley_20T_8B_6mm v8

+

+The **GT2 Timing Pulley 20T 8B 6mm (v8)** refers to a specific type of timing pulley used in belt-driven motion systems, often found in 3D printers, CNC machines, and other precision mechanical setups. Here’s a breakdown of its specifications:

+

+- **GT2**: Refers to the pulley type designed for **GT2 timing belts**, which have a 2mm pitch (distance between teeth). This type is commonly used in applications requiring precise movement and low backlash.

+- **Timing Pulley**: A mechanical component with teeth that engage with a timing belt to transfer motion with high accuracy.

+- **20T**: This pulley has **20 teeth**, which affects the step resolution and speed of the driven mechanism.

+- **8B**: Indicates an **8mm bore diameter**, meaning it fits shafts with an 8mm diameter.

+- **6mm**: This refers to the **belt width** it is compatible with, which is typically a **6mm-wide GT2 timing belt**.

+- **v8**: This likely refers to the **version** or **design iteration** of the pulley.

+

+This pulley is commonly used in precise motion control applications like 3D printing, where smooth and accurate belt-driven motion is needed. Let me know if you need further details! 🚀

+

+

+

+

+## GT2_Timing_Pulley_20T_8B_6mm

+

+- **GT2**: Refers to the tooth profile – 2 mm pitch (distance between teeth), ideal for precise motion control (e.g., 3D printers).

+- **20T**: 20 Teeth – the pulley has 20 teeth around its circumference.

+- **8B**: 8 mm **inner bore diameter** (fits an 8 mm shaft).

+- **6mm**: **Belt width** – designed for 6 mm wide GT2 timing belts.

+

+## Summary:

+This is a 20-tooth GT2 pulley with an 8 mm bore, suitable for 6 mm belts. It's commonly used in 3D printers, CNC machines, and robotics for accurate belt-driven motion.

+

+https://cad.onshape.com/documents/707b8372a3c9ced9cde96289/v/ee73401f89c866bc22119094/e/19e0ed0d5720546e9089804c?showReturnToWorkspaceLink=true

+

+- measured witdth = 9 mm

+- measured hole = 5 mm

+

+

+

+## GT2_Timing_Pulley_20T_8B_5mm

+

+the following images show inner hole 5mm, not 6mm

+

+

+

+

+## timing pulley VS. Coupler

+

+### 🔧 1. Function

+

+| Aspect | **Timing Pulley** | **Idler Pulley** |

+| ------- | ------------------------------------------------- | ------------------------------------------------ |

+| Purpose | Transmits power between shafts via timing belt | Guides or maintains tension in the belt |

+| Motion | Rotates with and drives the shaft it's mounted on | Usually free-spinning (not connected to a motor) |

+

+---

+

+### 🔁 2. Power Transmission

+

+| Aspect | **Timing Pulley** | **Idler Pulley** |

+| -------------- | ----------------------------------------------- | ------------------------------------------- |

+| Power Transfer | Yes – transfers torque and synchronizes timing | No – only redirects or tensions the belt |

+| Engagement | Toothed belt fits precisely to prevent slippage | May or may not be toothed; sometimes smooth |

+

+---

+

+### ⚙️ 3. Mounting and Design

+

+| Aspect | **Timing Pulley** | **Idler Pulley** |

+| -------------- | -------------------------------------- | ------------------------------------------- |

+| Shaft Mount | Mounted on driven or driving shaft | Mounted on a stationary or pivoting bracket |

+| Size Variation | Chosen for gear ratio and torque needs | Chosen based on tensioning or routing needs |

+

+---

+

+#### 🛠️ Example Scenario

+

+In a **3D printer or CNC machine**, the motor uses a **timing pulley** to drive a toothed belt, while an **idler pulley** on the other side keeps the belt tight and correctly aligned.

+

+

+## ref

+

+- [[timing-pulley]]

+- [[bearing-dat]]

+- [[belt-dat]] - [[belt-sys-dat]]

+- [[shaft-dat]] - [[shaft-coupler-dat]]

+

+- [[timing-pulley-dat]] - [[idler-dat]]

+

+# shaft-coupler-dat

+

+

+

+

+

+

+

+## Shaft Coupler

+

+A **shaft coupler** is a mechanical component used to **connect two rotating shafts**. It primarily functions to transmit torque while allowing for slight axial, radial, or angular misalignments.

+

+---

+

+### Types of Shaft Couplers

+

+#### 1. Rigid Coupler

+- **Features**: No elasticity, provides a solid connection, requires precise shaft alignment.

+- **Applications**: High-precision CNC machines, industrial machinery.

+

+#### 2. Flexible Coupler

+- **Features**: Can absorb slight misalignment, reduce vibration, and minimize impact.

+- **Common Types**:

+ - **Jaw Coupling** – Uses an elastomer insert to absorb vibrations; suitable for stepper and servo motors.

+ - **Bellows Coupling** – High torque transmission capability, ideal for precision applications.

+ - **Disc Coupling** – Used in high-speed and high-precision applications, such as robotics and aerospace.

+

+#### 3. Universal Joint (U-Joint)

+- **Features**: Allows for larger angular misalignment, commonly used for shafts that are not in perfect alignment.

+- **Applications**: Automotive drivetrains, heavy machinery.

+

+#### 4. Oldham Coupling

+- **Features**: Compensates for significant radial misalignment, commonly used in automation and 3D printing.

+

+---

+

+### Key Functions of Shaft Couplers

+✅ **Torque Transmission** – Connects the motor to the driven shaft for power transfer.

+✅ **Misalignment Compensation** – Allows slight shaft misalignment, reducing stress.

+✅ **Vibration & Shock Absorption** – Helps dampen vibrations and protect mechanical components.

+✅ **Equipment Protection** – Some couplers act as safety devices in case of overload.

+

+## ref

+

+- [[shaft-dat]] - [[shaft-coupler]] - [[shaft]]