China Custom Intake Camshaft Vvt Actuator Phaser Sprocket Gear for CZPT Camry 917-258 130500V010 130500V011 1305036010 1305036011 Vvt528 Csp1018 cycle gear

Product Description

1.VVT Variable Valve Timing Gear

2.

Warranty Info: 2 Years after BL  Delivery time:  30 days 
Manufacturer Part Number: R01-VVT-012 Packaging: Colour box
Interchange Part Number: 917-258
130500V571
130500V011
1305036571
1305036011
VVT528
CSP1018
MOQ 10PCS
Country/Region of Manufacture: China    

 3. Features:
High quality raw material
Engineered for long life and superior performance
Meet or exceed OEM specifications
Designed for quiet operation
4. Advantages:
Master Brand publicity material subvention
Best quality, leading factory, National High-tech Enterprise
Best service provided all the time
Self molding plant
5. Delivery:
Quick delivery in 30 days
Packed in colour outer box.
HangZhou or ZheJiang Port, China
6. Certification IATF16949

7. About our Factory
Our existing plant covers an area of more than 25,000 square meters, (the new plant of 46,000 square CHINAMFG is expected to be completed in May 2571). We have more than 400 employees, including more than 40 technical R&D personnel and more than 30 quality inspection personnel. Our company has successively introduced
3 fully automatic pump assembly lines;
2 automatic test benches;
3 fully automatic armature production lines;
1 central plastic feeding system,
and robotic operations to archieve intelligent manufacturing.
Our brand is sold to Europe, America, Middle East, Southeast Asia, and Africa.

 

Car Make: Toyota
Car Model: Camry
Classification: Adjustable Air Inlet
Material: Steel
Placement: Near the Automobile Front Grille
Certification: TS16949
Samples:
US$ 50/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

automobile gear

What is the role of the transmission control module (TCM) in a car?

The transmission control module (TCM) plays a crucial role in the operation of the transmission system in a car. Here’s a detailed explanation:

1. Transmission Control:

The primary function of the TCM is to control the operation of the transmission. It receives input from various sensors throughout the vehicle, such as speed sensors, throttle position sensors, engine load sensors, and more. Based on this input, the TCM makes decisions regarding gear selection, shifting points, and torque converter lock-up to ensure optimal performance and efficiency.

2. Shifting Strategy:

The TCM determines the shifting strategy based on the driving conditions and driver inputs. It uses complex algorithms and programming to calculate the ideal timing and characteristics of gear shifts. The shifting strategy can vary depending on factors such as vehicle speed, engine load, throttle position, and driver demand. The TCM’s goal is to provide smooth, seamless, and efficient gear shifts.

3. Fault Detection and Diagnostic Capability:

The TCM continuously monitors the transmission system for any malfunctions or abnormalities. It has built-in diagnostic capabilities to detect faults such as sensor failures, solenoid issues, or hydraulic problems. When a fault is detected, the TCM can often store relevant fault codes, which can be retrieved using specialized diagnostic tools to aid in troubleshooting and repair.

4. Communication with Other Vehicle Systems:

The TCM communicates with other electronic control units (ECUs) in the vehicle to exchange information and coordinate the overall vehicle operation. For example, it may communicate with the engine control module (ECM) to ensure smooth power delivery during gear shifts. It may also communicate with the anti-lock braking system (ABS) to optimize gear selection based on braking conditions.

5. Adaptation and Learning:

Modern TCMs have the capability to adapt and learn over time. They can adjust the shifting strategy based on the driver’s behavior and driving patterns. The TCM may learn the driver’s preferences and adapt the shift points and characteristics accordingly. This adaptive feature helps to tailor the transmission’s behavior to the individual driver’s style and improve overall driving experience.

6. Over-the-Air Updates:

Some TCMs in modern vehicles can receive over-the-air updates. Manufacturers can send software updates to the TCM to refine the shifting algorithms, address known issues, or introduce new features. This capability allows for continuous improvement and optimization of the transmission system even after the vehicle has been sold.

In summary, the transmission control module (TCM) is responsible for controlling and optimizing the operation of the transmission system in a car. It ensures smooth gear shifts, monitors the system for faults, communicates with other vehicle systems, adapts to the driver’s behavior, and can receive software updates for ongoing refinement and improvement.

automobile gear

How does a dual-clutch transmission (DCT) enhance the driving experience?

A dual-clutch transmission (DCT) enhances the driving experience in several ways. Here’s a detailed explanation:

1. Quick and Smooth Gear Shifts:

A DCT utilizes two separate clutches, one for odd-numbered gears and another for even-numbered gears. This dual-clutch setup allows for quick and seamless gear shifts without interrupting power delivery. While one clutch is engaged with the current gear, the other clutch pre-selects the next gear, resulting in near-instantaneous shifts. This quick and smooth shifting enhances acceleration and provides a more engaging driving experience.

2. Continuous Power Delivery:

Since a DCT can shift gears without the need for a torque converter (as in automatic transmissions), there is minimal power loss during gear changes. The power transfer from the engine to the wheels remains uninterrupted, resulting in improved performance and responsiveness. This continuous power delivery contributes to a more dynamic driving experience.

3. Enhanced Fuel Efficiency:

DCTs are designed to optimize fuel efficiency by reducing power losses and maximizing engine performance. The precise and efficient gear changes of a DCT help keep the engine operating in its optimal power band, resulting in improved fuel economy compared to traditional automatic transmissions.

4. Manual Control and Sporty Driving:

Many DCT-equipped vehicles offer manual control modes, such as paddle shifters or a manual shift gate. These modes allow the driver to manually select gears, providing a more involved and sporty driving experience. The ability to control gear changes enhances driver engagement and allows for greater control over the vehicle’s performance.

5. Versatility and Adaptability:

DCTs can adapt to different driving conditions and driver preferences. They often feature multiple driving modes, such as “Normal,” “Sport,” or “Eco,” which adjust shift points, throttle response, and other parameters to suit various driving styles. This versatility allows drivers to tailor the transmission’s behavior to their preferences, whether they prioritize performance, fuel efficiency, or comfort.

6. Suitable for Performance Vehicles:

DCTs are commonly used in high-performance and sporty vehicles due to their ability to provide lightning-fast gear changes and precise control. The rapid and seamless shifts of a DCT contribute to improved acceleration, faster lap times, and enhanced overall performance.

In summary, a dual-clutch transmission (DCT) enhances the driving experience through quick and smooth gear shifts, continuous power delivery, improved fuel efficiency, manual control options, adaptability to different driving conditions, and suitability for performance-oriented vehicles. These features contribute to a more engaging, responsive, and enjoyable driving experience for enthusiasts and drivers seeking a balance between performance and everyday usability.

automobile gear

What are the common types of automobile transmissions available?

There are several common types of automobile transmissions used in vehicles. Here’s a detailed explanation:

1. Manual Transmission: Manual transmissions, also known as “stick shift” or “standard” transmissions, require the driver to manually shift gears using a clutch pedal and gearshift lever. They typically have a set of forward gears, including first, second, third, fourth, and fifth (or sixth) gears, along with a reverse gear. Manual transmissions offer direct control over gear selection and are often preferred by enthusiasts for their engagement and control.

2. Automatic Transmission: Automatic transmissions use a torque converter and a complex system of planetary gears to automatically shift gears without driver intervention. They are the most common type of transmission in modern vehicles. Automatic transmissions provide smooth and convenient operation as they automatically select the appropriate gear ratio based on factors such as vehicle speed, engine load, and driver input. They typically offer “Drive” (D) mode for normal driving and may include additional modes like “Sport” (S) or “Economy” (E) for different driving preferences.

3. Continuously Variable Transmission (CVT): CVT is a type of automatic transmission that offers an infinite number of gear ratios within a specific range. Instead of using traditional gears, CVTs use a system of belts or chains and pulleys to provide seamless gear ratio changes. CVTs are known for their smoothness and fuel efficiency as they keep the engine operating at its most efficient RPM. They are commonly found in smaller vehicles and hybrid cars.

4. Dual-Clutch Transmission (DCT): DCT combines features of both manual and automatic transmissions. It uses two separate clutches for odd and even gears, allowing for quick and smooth gear shifts without interrupting power delivery. One clutch handles the current gear, while the other anticipates and prepares the next gear for engagement. DCTs provide fast and precise gear changes, making them popular in high-performance and sporty vehicles.

5. Automated Manual Transmission (AMT): AMT, also known as “Semi-Automatic Transmission” or “Clutchless Manual Transmission,” is essentially a manual transmission with automated clutch and gear shifting. Unlike traditional automatic transmissions, AMTs do not have a torque converter. Instead, they use actuators to control the clutch and gear selection based on the driver’s input or pre-programmed settings. AMTs are cost-effective alternatives to conventional automatic transmissions and are commonly found in entry-level or budget-friendly vehicles.

6. Sequential Manual Transmission (SMG) and Dual-Clutch Sequential Transmission: Sequential transmissions are commonly used in high-performance and racing vehicles. They allow for quick and precise sequential gear shifting without the need for a clutch pedal. SMGs use a single clutch, while dual-clutch sequential transmissions operate similarly to DCTs, with two clutches for improved performance and faster gear changes. Sequential transmissions provide rapid gear shifts, enhanced control, and are often controlled via paddle shifters mounted on the steering wheel.

These are some of the most common types of automobile transmissions available. Each type has its own advantages and characteristics, catering to different driving preferences, performance requirements, and fuel efficiency goals.

China Custom Intake Camshaft Vvt Actuator Phaser Sprocket Gear for CZPT Camry 917-258 130500V010 130500V011 1305036010 1305036011 Vvt528 Csp1018 cycle gearChina Custom Intake Camshaft Vvt Actuator Phaser Sprocket Gear for CZPT Camry 917-258 130500V010 130500V011 1305036010 1305036011 Vvt528 Csp1018 cycle gear
editor by CX 2023-09-25