Pfadnavigation
Es gibt 20946 Ergebnisse. Pro Seite werden 25 angezeigt.
Package: QFN9
Features: Low EMI Class-D Audio Power Amplifier
Load [Ω]: 4
Power [W]: 2,4
Vdd [V]: 2,5 V ... 5,5 V
Channel: 1
Package: DFN8
Features: Headphone Driver with Small Package
Load [Ω]: 16
Power [W]: 145
Vdd [V]: 2,5 V ... 5,5 V
Channel: 2
Package: DFN10
Features: OCL Headphone Driver
Load [Ω]: 32
Power [W]: 80
Vdd [V]: 2,7 V ... 5,1 V
Channel: 2
Package: SOP8
Features: Headphone Driver with Active High Shutdown Mode
Load [Ω]: 16
Power [W]: 158
Vdd [V]: 2,5 V ... 5,5 V
Channel: 2
Package: SOP8
Features: Headphone Driver with Differential Input
Load [Ω]: 16
Power [W]: 132
Vdd [V]: 2,7 V ... 5,5 V
Channel: 2
Package: SOP8
Features: Headphone Driver with Active Low Shutdown Mode
Load [Ω]: 16
Power [W]: 158
Vdd [V]: 2,5 V ... 5,5 V
Channel: 2
Package: SOP8, SOP10, DFN10
Features: ClassAB, Fully Differential Input, BTL Output
Load [Ω]: 8
Power [W]: 1,3
Vdd [V]: 2,5 V ... 5,5 V
Channel: 1
Package: DFN8
Features: ClassAB, Fully Differential Input, BTL Output
Load [Ω]: 8
Power [W]: 1,3
Vdd [V]: 2,5 V ... 5,5 V
Channel: 1
Package: SOP20, QFN20
Features: Audio Line Driver and Headphone Driver with Click-Pop Noise Cancellation
Load [Ω]: 32
Power [W]: 55
Vdd [V]: 2,8 V ... 12 V
Channel: 2
Package: DFN8
Features: ClassAB, BTL Output
Load [Ω]: 8
Power [W]: 1,2
Vdd [V]: 2,5 V ... 5,5 V
Channel: 1
Package: QFN16, SOP10
Features: High Capacitance Piezo-sounder Driver with charge pump
30Vpp Differential Output
Power [W]: 1,4
Vdd [V]: 6 V ... 6 V
Channel: 1 in/2 out
Die Time-of-Flight-Technologie (ToF) ist eine Methode, mit der Sensoren die Entfernung eines Objekts bestimmen, indem sie moduliertes Licht im nahen Infrarotbereich (oder sichtbares Licht) aussenden. Das Licht wird reflektiert, wenn es mit einem Objekt in Kontakt kommt, und der Sensor berechnet die Zeit- oder...
accuracy: 0.1~0.5m: ±3cm; 0.5~5m: ±2% @ 90% reflectivity
Resolution: 320*240@30fps
FOV: 100° (H) x 75° (V)
Working distance: 0.1-5m, indoor
Data transmission: TCP/IP Interface
Power supply mode: 12-24V/2A
Operating system: Windows, Linux, ROS1/ROS2
Security: LASER CLASS1
accuracy: 1% @whitewall
Resolution: 640x480/320x240
FOV: H60°x V45°(Receiver)
Working distance: 0.1-5m, indoor
Data transmission: USB 2.0 ,Type C Interface
Power supply mode: 5V, 0.5A
Operating system: Linux/Windows/ROS/Android
Security: LASER CLASS1
accuracy: 0.1~0.5m: ±2.5cm 0.5~5m: ±1% @ 90% reflectivity
Resolution: 1920*1080/640*480
FOV: H100°xV75°
Working distance: 0.1-5m, indoor
Data transmission: USB 2.0 ,Type C Interface
Power supply mode: 5V, average 0.6A
Operating system: Win 10,Ubuntu,ROS
Security: LASER CLASS1
accuracy: ±1% @ 90% reflectivity
Resolution: 640x480
FOV: H90°x V70°
Working distance: 0.3-4m, outdoor
Data transmission: 100M Ethernet, RS485
Power supply mode: 12-24 V DC
Operating system: Windows, Linux, ROS
Security: IP Rating IP67
accuracy: ±1% @ 90% reflectivity
Resolution: 640x480
FOV: H72°x V55°
Working distance: 0.3-10m, outdoor
Data transmission: 100M Ethernet, RS485
Power supply mode: 12-24 V DC
Operating system: Windows, Linux, ROS
Security: IP Rating IP67
accuracy: 15mm@ 6% ~ 90% reflectivity
Resolution: Max Frame rate:7.2 kHz
FOV: not specified
Working distance: 15m/60m
Data transmission: I²C-Schnittstelle
Power supply mode: 50mA@3.3V
Operating system: I2C
Security: LASER CLASS1
accuracy: 2mm
Resolution: Max Frame rate:200Hz
FOV: 23°x25°
Working distance: 2m@80% reflectivity
Data transmission: I²C-Schnittstelle
Power supply mode: 2uA, 3.6V
Operating system: I2C
Security: LASER CLASS1
accuracy: 2cm
Resolution: Max Frame rate:700Hz
FOV: 39.6°x23°
Working distance: 4m
Data transmission: I²C-Schnittstelle
Power supply mode: 50mA@3.3V
Operating system: I2C
Security: LASER CLASS1
accuracy: 30mm, 10% ~ 90% reflectivity
Resolution: Max Frame rate:7.2 kHz
FOV: 2°
Working distance: 0.05-15m indoor
Data transmission: UART (Serial Port)
Power supply mode: 5V, 0.1A
Operating system: UART
Security: LASER CLASS1
Interface: Direct
Touch Channels: 1
Package (Touchsensoren): TSOT23-6 DFN-6
Capacitive Prox/Touch: ja
Specific Absorption Rate (SAR): nein
Hall-Effect: ja
Inductive: ja
Ein Touchsensor ist eine Geräteart, die physische Berührungen oder Handgriffe eines Geräts und/oder Objekts erfasst und aufzeichnet. Es ist ein entscheidender Bestandteil von Geräten, auf die wir uns verlassen, wie z. B. Bedienfelder, z. B. für Haushaltsgeräte oder die Industrie, HMI-Schnittstellen, prellfreie...
Interface: Direct
Touch Channels: 1
Package (Touchsensoren): TSOT23-6 WLCSP-8 DFN-6
Capacitive Prox/Touch: ja
Specific Absorption Rate (SAR): nein
Hall-Effect: ja
Inductive: ja
Interface: Direct/I2C
Touch Channels: 1
Package (Touchsensoren): TSOT23-6 WLCSP-8
Capacitive Prox/Touch: ja
Specific Absorption Rate (SAR): nein
Hall-Effect: ja
Inductive: ja