- -58%
3D nyomtató-tartozékok TMC2208 V2.0 léptetőmotoros meghajtó modul ultra-csendes 256-os felosztás a hűtőborda
3D nyomtató-tartozékok TMC2208 V2.0 léptetőmotoros meghajtó modul ultra-csendes 256-os felosztás a hűtőborda
254 Ft
58% megtakarítás
604 Ft
Nincs adó
Product introduction:
1. TMC2208 is an ultra-quiet two-phase stepper motor driver chip, continuous drive current 1.4A, peak current 2A, voltage range 4.75V-36V, 256 subdivision; with patented technology spreadCycle" (high dynamic chopper) stealthChop2" (ultra-silent technology), microPlyert" (subdivision control).
2. The flexible microplyer interpolation unit can provide up to 256 subdivisions, even in a system with limited pulse frequency, it can still achieve perfect sinusoidal control; because the stealthChop2 ultra-quiet technology is widely used in 3D printing, these components are The design is also compatible with the existing 3D printer electronics, eliminating the costly cost of redesign. With standard step/dir interface, it is simple and convenient to use.
Features:
1. The subdivision is up to 256;
2. Will not lose step when driven by high load;
3. The logic interface level is: 3-5V;
4. Input voltage range: 4.75-36V DC;
5. The subdivision mode can be 2, 4, 8, 16 subdivision;
6. StealthChop2 can drive the motor to work in extremely silent conditions, and can control the sound of the motor below 10dB, and the noise is much lower than the traditional current control method;
7. In the traditional stepping motor drive scheme, there will be an excessive current when the current crosses the zero point, or called a current dead zone, when the motor coil has no current. This is a major factor that causes the motor to vibrate. SpreadCycle guarantees that the stepper motor has a smooth transition without dead-zone current when the stepper motor is over-respected. Several stepper motor driver chips using TMC2208 have almost no jitter;
8. SpreadCycle PWM new wave mode automatically configures a hysteresis attenuation function between slow and fast attenuators. The average current reflects the configured normal current. There will be no transition period when the sine wave crosses the zero point. This reduces the fluctuation of current and torque, and makes the current waveform closer to the sine wave. Compared with the traditional constant chopping type, SpreadCycle PWM chopping The motor under wave mode control runs more smoothly and smoothly.
1. TMC2208 is an ultra-quiet two-phase stepper motor driver chip, continuous drive current 1.4A, peak current 2A, voltage range 4.75V-36V, 256 subdivision; with patented technology spreadCycle" (high dynamic chopper) stealthChop2" (ultra-silent technology), microPlyert" (subdivision control).
2. The flexible microplyer interpolation unit can provide up to 256 subdivisions, even in a system with limited pulse frequency, it can still achieve perfect sinusoidal control; because the stealthChop2 ultra-quiet technology is widely used in 3D printing, these components are The design is also compatible with the existing 3D printer electronics, eliminating the costly cost of redesign. With standard step/dir interface, it is simple and convenient to use.
Features:
1. The subdivision is up to 256;
2. Will not lose step when driven by high load;
3. The logic interface level is: 3-5V;
4. Input voltage range: 4.75-36V DC;
5. The subdivision mode can be 2, 4, 8, 16 subdivision;
6. StealthChop2 can drive the motor to work in extremely silent conditions, and can control the sound of the motor below 10dB, and the noise is much lower than the traditional current control method;
7. In the traditional stepping motor drive scheme, there will be an excessive current when the current crosses the zero point, or called a current dead zone, when the motor coil has no current. This is a major factor that causes the motor to vibrate. SpreadCycle guarantees that the stepper motor has a smooth transition without dead-zone current when the stepper motor is over-respected. Several stepper motor driver chips using TMC2208 have almost no jitter;
8. SpreadCycle PWM new wave mode automatically configures a hysteresis attenuation function between slow and fast attenuators. The average current reflects the configured normal current. There will be no transition period when the sine wave crosses the zero point. This reduces the fluctuation of current and torque, and makes the current waveform closer to the sine wave. Compared with the traditional constant chopping type, SpreadCycle PWM chopping The motor under wave mode control runs more smoothly and smoothly.
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