500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
LTC2938CMS#PBF Linear Technology LTC2938 - Configurable 4-Supply Monitors with Watchdog Timer; Package: MSOP; Pins: 12; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2939CMS#PBF Linear Technology LTC2939 - Configurable 6-Supply Monitors with Watchdog Timer; Package: MSOP; Pins: 16; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2938HDE#TRPBF Linear Technology LTC2938 - Configurable 4-Supply Monitors with Watchdog Timer; Package: DFN; Pins: 12; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2939HMS#TRPBF Linear Technology LTC2939 - Configurable 6-Supply Monitors with Watchdog Timer; Package: MSOP; Pins: 16; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2938HDE#PBF Linear Technology LTC2938 - Configurable 4-Supply Monitors with Watchdog Timer; Package: DFN; Pins: 12; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2939HMS#PBF Linear Technology LTC2939 - Configurable 6-Supply Monitors with Watchdog Timer; Package: MSOP; Pins: 16; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy

L297 pin configuration

Catalog Datasheet MFG & Type PDF Document Tags

L297 application note

Abstract: L298N this purpose). Figure 1 : In this typical configuration an L297 stepper motor controller and L298 , note the pins of the L298N are labelled with the pin names of the corresponding L297 terminals to , APPLICATION NOTE PIN FUNCTIONS - L297 N° NAME 1 SYNC Output of the on-chip chopper oscillator , (Pin function of the L297A are identical to those of the,L297 except for pins 1 and 11) 1 DOUBLER , APPLICATION NOTE THE L297 STEPPER MOTOR CONTROLLER The L297 integrates all the control
STMicroelectronics
Original
L297 application note L297 L298 and unipolar stepper motor L297 pin configuration L298N application note l297 l298 L293E

L298 and unipolar stepper motor

Abstract: L298N purpose). Figure 1. In this typical configuration an L297 stepper motor controller and L298 dual bridge , L297 is fitted with the oscillator components and outputs a sqarewave signal on this pin (figure19 , AN470 APPLICATION NOTE THE L297 STEPPER MOTOR CONTROLLER The L297 integrates all the control , can be driven with an L297 plus a quad darlington array. This note describes the operation of the circuit and shows how it is used. The L297 Stepper Motor Controller is primarily intended for use with
STMicroelectronics
Original
unipolar full step stepper motor using L297 l298n pin diagram L297 L298n application note schematic diagram disk drive motor controller dc MOTOR L298n four quad chopper circuit diagram

internal circuit diagram for ic L297

Abstract: L297 Theory integration on the embedded controller design. Configuration of the memory, ease of interface to various , and linear electronics or by some stepper motor control IC's such as the L297 stepper motor controller. Figure 4 shows a block diagram of a stepper motor control and the L297 is used as the stepper motor control IC. The L297 provides control to an amplifier in the current mode. The chop frequency for the L297 is set to 20KHz. Chop frequency is used to regulate the amount of current in the motor
WaferScale Integration
Original
PSD503 80C186 internal circuit diagram for ic L297 L297 Theory l297 stepper L297* application stepper motor interface L297 equivalent

L293 and unipolar stepper motor

Abstract: lm339 pwm speed motor POWERDIP package (a 16-pin DIP with the four center leads used to conduct heat to the PC board copper , Each motor in this configuration is controlled by its own logic input which gives two alternatives , together. A full bridge configuration is used to drive DC motors in both directions (figure 6). Using the , usually necessary. Like the previous circuit, this configuration is suitable for motors with currents up , configuration for bipolar stepper motor driving is shown in figure 9. In this example it is assumed that a
STMicroelectronics
Original
L293 and unipolar stepper motor lm339 pwm speed motor DC MOTOR DRIVE WITH LM339 lm339 pwm speed DC motor L293 H Bridge internal structure dc motor driver using L298

L298 and unipolar stepper motor

Abstract: L6505 stepper controller chopper current control in the L297. The oscillator on pin 16 of the L297 resets the two flip-flops at , the voltage across the sense resistor (pin 1, 15 of L298) is equal to the reference voltage input (pin 15, L297) the comparator then sets the flip-flop, causing the output of the L297 to change to an , these requirements is the L297 unit (fig. 13). Four signals control the motor in all operations : 1 , operating conditions, such as those that could occur during. Figure 13 : The L297 avoids the Use of
STMicroelectronics
Original
L6505 stepper controller l6505 L297 datasheet 1.8 degree unipolar stepper motor control motors l297 l298 l297 l298 bipolar AN235/0788

BAT41 equivalent

Abstract: L297 equivalent other inductive loads. The drive of different loads in single-ended configuration is shown in fig , intensity is controlled by variable Duty Cycle. This is achieved by the configuration shown in fig , and C4, generates the bootstrap voltage by rectifiing the wave available at pin. 11 of the L6204 , times the nominal current is recommended in- APPLICATION NOTE stead of two. This configuration is , a paralleled configuration while the L6506 provides the peak current control both during normal
STMicroelectronics
Original
BAT41 equivalent L6506 example Bipolar stepper motor full bridge control Circuit L297 stepper motor driver circuit SGS-Thomson L297 one direction dc motor control circuit AN379/0690

TBA820M equivalent

Abstract: L298 and unipolar stepper motor . In this configuration the motor is controlled through the L297. A step clock moves the motor one , POWERDIP package (a 16-pin DIP with the four center leads used to conduct heat to the PC board copper , configuration is controlled by its own logic input which gives two alternatives : run and fast stop (the motor , , this configuration is suitable for motors with currents up to 1A (L293/L293E)or 2A (L298N). The , output is initially high, enabling the bridge through pin 1. The current in the motor winding rises
STMicroelectronics
Original
TBA820M equivalent generator dynamo l298 L293 H Bridge L298 motor drive l298 application note

L298 and unipolar stepper motor

Abstract: L6505 stepper controller signals. Let us consider the implementation of chopper current control in the L297. The oscillator on pin 16 of the L297 resets the two flip-flops at the start of each oscillator period. The flip-flop , L298) is equal to the reference voltage input (pin 15, L297) the comparator then sets the flip-flop , line. A typical control circuit that meets all these requirements is the L297 unit (fig. 13). Four , during. Figure 13 : The L297 avoids the Use of Complicated Standard Logic to Generate Both Full and
STMicroelectronics
Original
l298 unipolar STEPPER MOTOR DRIVING, AN235, H. Sax l298 Configuration steppermotor controller principle stepper motor L297 transistor

L297 application note

Abstract: L297 loads in single-ended configuration is shown in fig.2. The current in the Load Z1, that may be a DC , controlled by variable Duty Cycle. This is achieved by the configuration shown in fig.3. The two , bootstrap voltage by rectifiing the wave available at pin. 11 of the L6204. When more than one driver is , nominal current is recommended instead of two. This configuration is shown in fig.2 to drive the load Z1 , DC motor drive. The L6204 can drive the motor in a paralleled configuration while the L6506 provides
STMicroelectronics
Original
AN379 closed loop bidirectional speed torque control of motors of bidirectional dc motor speed controller L6204 equivalent bipolar Stepping DRIVER BAT41

LS7266R1-S

Abstract: LS7366RTS Index Driven Operations 8-Bit, 16-Bit, 24-Bit and 32-Bit Programmable Configuration 3V to 5.5V , clocks Pin selectable 3-state Hex / Octal bus SO / DO = Single-axis / Dual-axes Octal I/O Bus SH / DH = Single-axis / Dual-axes with pin selectable Hex / Octal I/O Bus 3V to 5.5V Operating voltage , independent of Touch Plate Size and Line-Plug Polarity. Pin selection of three available Brightness Step , counting 8-bit, 16-bit, 24-bit and 32-bit programmable configuration 3V to 5.5V operation 24-Bit x 4
LSI Computer Systems
Original
LS7266R1-S LS7366RTS LS7031 LS7541 pdf/keypad Encoder IC 20 pins LS7634 SFC110415 LS7210 LS7211 LS7212 LS7213R LS7211N

R1M 29

Abstract: 2506036017Y0 1:10 Differential SDRAM Clock Driver NETCOM MPC96877 Table 1. Pin Configuration Pin BGA , 0.65-mm pitch) and 40-Pin MLF (QFN) 52-lead Pb-free Package Available External Feedback Pins (FBIN , VK SUFFIX 52-BALL FP-MAPBGA PACKAGE CASE 1544-01 EP SUFFIX 40-PIN MLF/QFN PACKAGE CASE 1545-01 , , low-jitter, low-skew, zero-delay buffer TA 52-Ball BGA 40-Pin QFN that distributes a differential clock , (output select) is a program pin that must be tied to GND or VDD. When OS is high, OE functions as
Integrated Device Technology
Original
JESD82-8 MPC96877VK MPC96877EP R1M 29 2506036017Y0 PC2-3200/4300 40-PIN 199707558G

2506036017Y0

Abstract: MPC96877 Freescale Semiconductor 3 Table 1. Pin Configuration Pin BGA MLF I/O Function AGND , -Ball VF-BGA (FP-MAPBGA 0.65-mm pitch) and 40-Pin MLF (QFN) 52-lead Pb-free Package Available External , Skew: 40 ps max. VK SUFFIX 52-BALL FP-MAPBGA PACKAGE CASE 1544-01 EP SUFFIX 40-PIN MLF/QFN , ) to ten differential pairs of TA 52-Ball BGA 40-Pin QFN clock outputs (Yn, Yn) and to one , frequency. OS (output select) is a program pin that must be tied to GND or VDD. When OS is high, OE
Freescale Semiconductor
Original
Mark is CK 0603 diode
Abstract: Freescale Semiconductor 3 Table 1. Pin Configuration Pin AGND AVDD CK CK FBIN FBIN FBOUT FBOUT OE OS , -mm Pitch) and 40-Pin MLF (QFN) 52-Lead Pb-Free Package Available External Feedback Pins (FBIN, FBIN) are , Description EP SUFFIX 40-PIN MLF/QFN PACKAGE CASE 1545-01 The MPC96877 is a high-performance, low-jitter , , CK) to ten differential pairs of TA 52-Ball BGA 40-Pin QFN clock outputs (Yn, Yn) and to one , . OS (output select) is a program pin that must be tied to GND or VDD. When OS is high, OE functions as Freescale Semiconductor
Original

L297 pin configuration

Abstract: Pinouts TIMING SOLUTIONS 3 MPC96877 Table 1. Pin Configuration Pin AGND AVDD CK CK FBIN FBIN , clock distribution (SSTL_18) 52-Ball VF-BGA (FP-MAPBGA 0.65-mm pitch) and 40-Pin MLF(QFN) External , : 40 ps max. Functional Description SCALE 2:1 EP SUFFIX 40-PIN MLF/QFN PACKAGE CASE 1545-01 , (Yn, Yn) and to one differential pair of feedback clock outputs TA 52-Ball BGA 40-Pin QFN (FBOUT , internal PLL continues to maintain its locked-in frequency. OS (output select) is a program pin that must
Motorola
Original
Abstract: MPC96877 1.8 V PLL 1:10 Differential SDRAM Clock Driver NETCOM Table 1. Pin Configuration Pin AGND , _18) 52-Ball VF-BGA (FP-MAPBGA 0.65-mm Pitch) and 40-Pin MLF (QFN) 52-Lead Pb-Free Package Available , Output-to-Output Skew: 40 ps max. Functional Description EP SUFFIX 40-PIN MLF/QFN PACKAGE CASE 1545-01 The , distributes a differential clock input pair (CK, CK) to ten differential pairs of TA 52-Ball BGA 40-Pin QFN , to maintain its locked-in frequency. OS (output select) is a program pin that must be tied to GND or Integrated Device Technology
Original
MPC92459

R1M 29

Abstract: L297 pin configuration SEMICONDUCTOR ADVANCED CLOCK DRIVERS DEVICE DATA 549 MPC96877 Table 1. Pin Configuration Pin AGND AVDD , clock distribution (SSTL_18) 52-Ball VF-BGA (FP-MAPBGA 0.65-mm pitch) and 40-Pin MLF (QFN) 52 , Mhz): 40 ps max. · Output-to-Output Skew: 40 ps max. Functional Description EP SUFFIX 40-PIN MLF , , low-jitter, low-skew, zero-delay buffer TA 52-Ball BGA 40-Pin QFN that distributes a differential clock input , ) is a program pin that must be tied to GND or VDD. When OS is high, OE functions as previously
Freescale Semiconductor
Original

2506036017Y0

Abstract: MPC96877 MPC96877 Advanced Clock Drivers Devices Freescale Semiconductor 3 Table 1. Pin Configuration Pin , 40-Pin MLF (QFN) 52-lead Pb-free Package Available External Feedback Pins (FBIN, FBIN) are used to , Description VK SUFFIX 52-BALL FP-MAPBGA PACKAGE CASE 1544-01 EP SUFFIX 40-PIN MLF/QFN PACKAGE CASE , , zero-delay buffer 52-Ball BGA 40-Pin QFN that distributes a differential clock input pair (CK, CK) to ten , pin that must be tied to GND or VDD. When OS is high, OE functions as previously described. When OS
Freescale Semiconductor
Original
Abstract: : www.freescale.com Freescale Semiconductor, Inc. MPC96877 Table 1. Pin Configuration Pin AGND AVDD CK CK FBIN , 40-Pin MLF(QFN) External Feedback Pins (FBIN, FBIN) are used to synchronize the Outputs to the Input , Description SCALE 2:1 EP SUFFIX 40-PIN MLF/QFN PACKAGE CASE 1545-01 The MPC96877 is a , differential pair of feedback clock outputs TA 52-Ball BGA 40-Pin QFN (FBOUT, FBOUT). The clock outputs are , its locked-in frequency. OS (output select) is a program pin that must be tied to GND or VDD. When OS Motorola
Original

R1M 29

Abstract: SEMICONDUCTOR ADVANCED CLOCK DRIVERS DEVICE DATA 549 MPC96877 Table 1. Pin Configuration Pin AGND AVDD , clock distribution (SSTL_18) 52-Ball VF-BGA (FP-MAPBGA 0.65-mm pitch) and 40-Pin MLF (QFN) 52 , Mhz): 40 ps max. · Output-to-Output Skew: 40 ps max. Functional Description EP SUFFIX 40-PIN MLF , , low-jitter, low-skew, zero-delay buffer TA 52-Ball BGA 40-Pin QFN that distributes a differential clock input , ) is a program pin that must be tied to GND or VDD. When OS is high, OE functions as previously
Freescale Semiconductor
Original

schematic diagram 48v dc motor speed controller

Abstract: L298 and unipolar stepper motor L297-L297D PIN CONNECTION (Top view) L297 L297D BLOCK DIAGRAM (L297/L297D) 2/11 L297-L297D PIN FUNCTIONS - L297/L297D N° NAME FUNCTION 1 SYNC Output of the on-chip chopper , 40 to 150 °C Total Power Dissipation at Tpins = 90 °C Storage and Junction Temperature PIN , Parameter Test Conditions Min. Typ. Max. Unit VS Supply Voltage (pin 10) VSS 36 V V SS Logic Supply Voltage (pin 20) 4.5 36 V IS Total Quiescent Supply Current
STMicroelectronics
Original
schematic diagram 48v dc motor speed controller L293D H-bridge motor drive 4-phase BIPOLAR STEPPER MOTOR L298 microstepping L6203 L298 H-bridge motor drive l293d motor controller L293D L293DD TEA3718-TEA3718S
Showing first 20 results.