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ECS-3953M-040-AU-TR ECS International Inc XO, Clock, 1MHz Min, 200MHz Max, 4MHz Nom, ROHS COMPLIANT, MINIATURE, SMD, 4 PIN visit Digikey Buy
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ECS-3953M-080-AU-TR ECS International Inc XO, Clock, 1MHz Min, 200MHz Max, 8MHz Nom, ROHS COMPLIANT, MINIATURE, SMD, 4 PIN visit Digikey Buy
ECS-3953M-1000-AU-TR ECS International Inc XO, Clock, 1MHz Min, 200MHz Max, 100MHz Nom, ROHS COMPLIANT, MINIATURE, SMD, 4 PIN visit Digikey Buy

crystal oscillator 1 MHz 4 pins

Catalog Datasheet MFG & Type PDF Document Tags

ot21

Abstract: 16.9344 MHz crystal oscillator VDD and VSS pins. ¾ CD crystal oscillator input/output pins. Connect a 16.9344 MHz crystal , . oscillator pins Rout1 XO The crystal oscillator can be halted by program. If the 4.5 MHz or 75 kHz , instruction) fMXT1 ¾ 4.5 MHz crystal oscillator set (Note 1)* ¾ 4.5 ¾ MHz fMXT2 , one of three crystal oscillator operating clocks (16.9344 MHz, 4.5 MHz, and 75 kHz), facilitating , ) At CD on: IDD = 50 mA (typ.) At CD off: IDD = 2 mA (with 4.5 MHz crystal oscillator, only CPU on
Toshiba
Original

TC94A09F

Abstract: CD PLAYER Radio remote control CT pins Connect a 16.9344 MHz crystal oscillator. The clock is used as the CD system clock and , mA fMXT1 ¾ 4.5 MHz crystal oscillator set (Note 1)* ¾ 4.5 ¾ MHz fMXT2 , select one of three crystal oscillator operating clocks (16.9344 MHz, 4.5 MHz, and 75 kHz , instructions) Crystal oscillator frequency: 16.9344 MHz/4.5 MHz/75 kHz Stack level: 8 AD converter: 6-bit ´ , P3-1 and P4-0 pins are also used as built-in 6-bit 4-channel AD converter analog input pins. The
Toshiba
Original
Abstract: ) Crystal oscillator frequency: 16.9344 MHz/4.5 MHz/75 kHz Stack level: 8 AD converter: 6-bit × 4 , oscillator input/output pins. Connect a 16.9344 MHz crystal oscillator. The clock is used as the CD system , connected (XVDD) 16.9344 MHz crystal oscillator off Ci = Co = 15 pF (Note 1)* * Min 4.5 Typ. ~ 50 2.0 , one of three crystal oscillator operating clocks (16.9344 MHz, 4.5 MHz, and 75 kHz), facilitating , mA (typ.) At CD off: IDD = 2 mA (with 4.5 MHz crystal oscillator, only CPU on) At CD off: IDD = 0.3 Toshiba
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TC94A23F

Abstract: lcd cross reference pins. Connect a 16.9344 MHz crystal oscillator. The clock is used as the CD system clock and , one of three crystal oscillator operating clocks (16.9344 MHz, 4.5 MHz, and 75 kHz), facilitating , = 50 mA (typ.) At CD off: IDD = 2 mA (with 4.5 MHz crystal oscillator, only CPU on) At CD off: IDD , frequency: 16.9344 MHz/4.5 MHz/75 kHz Stack level: 8 AD converter: 6-bit 4-channel LCD driver: 1/4 duty , MHz or 75 kHz crystal oscillator is used). MVDD MVDD Bias voltage After system reset or
Toshiba
Original

IC Microphone UHF Wireless transmitter

Abstract: 150 KHz colpitts oscillator construction current controlled type. An external oscillator coil is connected to Pins 1 and 4 which forms a parallel , referenced in this section. Current Controlled Oscillator (Pins 1 to 4) It is critical to keep the , MHz VCC NOTES: 1. 2. 2. 2. 50 coaxial balun, 1/10 wavelength at 320 MHz equals 1.5 inches. Pins , 2.2k 33p Crystal Fundamental VCC 10 MHz NOTES: 1. VCC is ground; while VEE is negative with , tank. These are the base­emitters at Pins 1 and 4 and the base­emitter of the differential amplifier
Motorola
Original

buzzer types

Abstract: cd player clock oscillator pins for the CD processor-dedicated crystal oscillator. Connect a 16.9344-MHz crystal oscillator , CPU in operation (CD standby, 16.9344-MHz crystal oscillator/CR oscillator used) (Note 4) 3.0 , operating clocks (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and CR oscillator), facilitating , mode, with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 µA (CD standby mode , instruction consists of a single word.) · Crystal oscillator frequency: 16.9344 MHz, 75 kHz, 32.768 kHz, CR
Toshiba
Original

150 KHz colpitts oscillator construction

Abstract: colpitts oscillator construction design controlled type. An external oscillator coil is connected to Pins 1 and 4 which forms a parallel resonance LC , this section. Current Controlled Oscillator (Pins 1 to 4) It is critical to keep the interconnect leads , be placed as close as possible to the pins. 3. The crystal oscillator circuit may be adjusted for , - + 4.7 -4 5 6.5 - 1 3 & 14 ± A fH MHz 3.5 4.0 - 8.0 25 27 4.0 25 -5 0 7 W , 1 3 & 14 - Figure 2.320 MHz Test Circuit 2. Pins 5,10 and 15 are brought to the circuit
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OCR Scan
Abstract: (CD standby, 16.9344-MHz crystal oscillator/CR oscillator used) (Note 4) Only CPU in operation (CD , oscillator selected (OSC) CR oscillator selected (Note 4) MHz s MW (MXI-MXO) Crystal oscillator , operating clocks (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and CR oscillator), facilitating , , with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 µA (CD standby mode, with , , the 16.9344-MHz crystal oscillator (XI, XO) starts operating. The controller counts clock pulses from Toshiba
Original
Abstract: be selected from among 1 ms, 4 ms, 16 ms and 64 ms (when the 75-kHz crystal oscillator is used). , standby, 16.9344-MHz crystal oscillator/CR oscillator used) (Note 4) 3.0 ~ 3.6 Only CPU in , (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and external clock input), facilitating interface , = 1.5 mA (CD standby mode, with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = , applied while the RESET signal is low. When it is high, the 16.9344-MHz crystal oscillator (XI, XO Toshiba
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TC94A29FA

Abstract: TYP32 (CD standby, 16.9344-MHz crystal oscillator/CR oscillator used) (Note 4) Only CPU in operation (CD , operating clocks (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and CR oscillator), facilitating , , with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 µA (CD standby mode, with , -0/S1 P3-1/S2 P3-2/S3 P3-3/S4 P4-0/S5 P4-1/S6 P4-2/S7 P4-3/S8 P5-0/S9 16.9344-MHz oscillator LQFP , , the 16.9344-MHz crystal oscillator (XI, XO) starts operating. The controller counts clock pulses from
Toshiba
Original

cd player clock oscillator

Abstract: TC94A39FAG pins for the CD processor-dedicated crystal oscillator. Connect a 16.9344-MHz crystal oscillator , CPU in operation (CD standby, 16.9344-MHz crystal oscillator/CR oscillator used) (Note 4) 3.0 , operating clocks (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and CR oscillator), facilitating , mode, with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 µA (CD standby mode , instruction consists of a single word.) · Crystal oscillator frequency: 16.9344 MHz, 75 kHz, 32.768 kHz, CR
Toshiba
Original

TC94A58FAG

Abstract: tc94a58 be selected from among 1 ms, 4 ms, 16 ms and 64 ms (when the 75-kHz crystal oscillator is used). In , voltage range VDD2 CPU in operation (CD standby, 16.9344-MHz crystal oscillator/CR oscillator (Note 4 , clocks (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and external clock input), facilitating , , with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 µA (CD standby mode, with , /SYSCK (BRK1) P8-1/MXO/DACin (BRK2) P2-0/COM1 P2-1/COM2 P2-2/COM3 16.9344-MHz oscillator 75-kHz/32.768
Toshiba
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tc94a58

Abstract: TC94A58F (CD standby, 16.9344-MHz crystal oscillator/CR oscillator (Note 4) used) 3.0 ~ 3.6 Only , (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and external clock input), facilitating interface , 1.5 mA (CD standby mode, with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 , (Every instruction consists of a single word.) · Crystal oscillator frequency: 16.9344 MHz, 75 kHz , oscillator /CPU clock input I/O port 8-1 /crystal oscillator /1-bit DAC data input The 75-kHz or
Toshiba
Original

OT29

Abstract: QFP-100 5.5 V (when CPU only operating) Crystal oscillator frequency: 4.5 MHz, 75 kHz Current dissipation: PLL operating: IDD = 3 mA (typ.) (crystal oscillator frequency 4.5 MHz, VHF mode) PLL off: IDD = 1 mA (typ.) (crystal oscillator frequency 4.5 MHz, CPU only operating) PLL off:IDD = 0.3 mA (typ.) (crystal , µF typ.) stabilizes the power supply. Crystal oscillator pins. Connect a 4.5 MHz crystal (Ci = Co , oscillator pins. If both 4.5 MHz and 75 kHz crystal oscillators are connected, after a reset the CPU
Toshiba
Original

TC93P24FG

Abstract: mode) PLL off: IDD = 1 mA (typ.) (crystal oscillator frequency 4.5 MHz, CPU only operating) PLL off:IDD , oscillator pins. Connect a 4.5 MHz crystal (Ci = Co = 30 pF typ.) to XIN1 and XOUT1 and a 75 kHz crystal (Ci , necessary to fix the 75 kHz crystal oscillator pins. If both 4.5 MHz and 75 kHz crystal oscillators are , RfXT1 VDD 97 XOUT1 4.5 MHz crystal oscillator pins XIN1 98 XIN1 100 VEE LCD , . 5.0 V) PLL off: VDD = 3.5 to 5.5 V (when CPU only operating) Crystal oscillator frequency: 4.5 MHz, 75
Toshiba
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tc94a29

Abstract: (CD standby, 16.9344-MHz crystal oscillator/CR oscillator used) (Note 4) Only CPU in operation (CD , oscillator selected (OSC) CR oscillator selected (Note 4) MHz s MW (MXI-MXO) Crystal oscillator , operating clocks (16.9344-MHz, 75-kHz or 32.768-kHz crystal oscillator and CR oscillator), facilitating , , with 16.9344-MHz crystal oscillator, CPU in operation) CD stopped: IDD = 50 µA (CD standby mode, with , , the 16.9344-MHz crystal oscillator (XI, XO) starts operating. The controller counts clock pulses from
Toshiba
Original

crystal oscillator 1 MHz 4 pins

Abstract: 4 pin 20 MHz crystal oscillator Figure 1. 1­10 MHz Crystal Circuit 11­20 MHz Crystal Oscillator Operation Figure 2 illustrates a , Oscillator Configuration (50 MHz Operation) Table 4. Alternate Recommended Crystal Oscillator , 21­49 MHz must use external clock sources. 1­10 MHz Crystal Oscillator Operation For eZ80Acclaim , oscillator circuit is restricted to the operational frequency range of 1­10 MHz. Table 1 describes the recommended specifications for 1 MHz and 10 MHz crystals. The crystal circuit configuration is illustrated in
ZiLOG
Original

150 KHz colpitts oscillator construction

Abstract: colpitts oscillator construction design discussed and referenced in this section. Current Controlled Oscillator (Pins 1 to 4) It is critical to , (MC13175) MC13175­30p MC13176­180p MC13175 Crystal 3rd Overtone 40.0000 MHz NOTES: 1. 2. 2. 2 , pins. The crystal oscillator circuit may be adjusted for frequency with the variable inductor , 1.0k Crystal 3rd Overtone 40 MHz (3) MC13176 Crystal Fundamental VCC 10 MHz NOTES: 1 , Inputs The oscillator is a current controlled type. An external oscillator coil is connected to Pins 1
Motorola
Original
150 KHz colpitts oscillator construction colpitts oscillator construction design audio video uhf transmitter circuit MC13176-180p schematic diagram 3 phase ac drive Nippon capacitors MC13175/D MC13175/76 05J08

pierce crystal oscilator

Abstract: PLL080M1 clock "ticks" are not coupled onto the crystal pins. These are as follows: 1. It is important to place , . Low Frequency Oscillator Characteristics Symbol Parameter 1/(tCPRTC) Crystal Oscillator , AT91M55800A Crystal Oscillator Characteristics Table 4. RTC Oscilator Characteristics Symbol Parameter 1/(tCPRTC) Crystal Oscillator Frequency CL1, CL2 Internal Load Capacitance (CL1 - CL2 , . Main Oscillator Characteristics Symbol Parameter 1/(tCPRTC) Crystal Oscillator Frequency
Atmel
Original
AT91M42800A pierce crystal oscilator PLL080M1 transistor zx series of thumb detector 4 mhz crystal oscillator 09/01/0M

crystal oscillator 1 MHz 4 pins

Abstract: TMS320 crystal or can oscillator. The state of the CLKMD pins determine the internal clock options such as , pins and modes. (Ext) C X1 (Int or ext) Enabled for div-1 Disabled for div-2 Always X2 PLL Osc ÷2 (int) Crys (int) 'C5x X2 C Figure 1. The C5x has five pins , item you must decide is whether a crystal or can oscillator (crystal + oscillator) will be used in the , because it is only used for the divide-by-1 option. The can oscillator output is connected directly to
Texas Instruments
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TMS320 crystal oscillator 1 MHz 4 pins TMS320C5
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