datasheetQ language:

654A

  

Datasheet

Match, Like N/A
Start with N/A
End *5654A *W654A *6654A *F654A *S654A *0654A *2654A *1654A
Included *6654A* *2654A* *1654A* *A654A* *0654A* *F654A* *W654A*

View Details

Manufacturer Part no Description View
BB
BBBB
OPA654AM Wide Bandwidth, High Output Current Difet ® OPERATIONAL AMPLIFIER

DESCRIPTION
The OPA654 is a high-speed monolithic operational amplifier featuring 200mA output current. Fabricated
using Burr-Brown’s Complementary-Bipolar, Difetprocess, it provides an excellent combination of high speed and high output current.


other parts : OPA654 
TI
TITI
TLC2654AMJ Advanced LinCMOSE PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS

description
The TLC2654 and TLC2654A are low-noise chopper-stabilized operational amplifiers using
the Advanced LinCMOSprocess. Combining this process with chopper-stabilization circuitry
makes excellent dc precision possible. In addition, circuit techniques are added that give the
TLC2654 and TLC2654A superior noise perfor mance.

Input Noise Voltage
  0.5 µV (Peak-to-Peak) Typ, f = 0 to 1 Hz
  1.5 µV (Peak-to-Peak)


other parts : 5962-9089502M2A 5962-9089502MCA 5962-9089502MPA 5962-9089504QCA 5962-9089504QPA TLC2654 TLC2654A TLC2654AC-8D TLC2654AC-8DG4 TLC2654AC-8DR 
TI
TITI
TLC2654AMP Advanced LinCMOSE PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS

description
The TLC2654 and TLC2654A are low-noise chopper-stabilized operational amplifiers using
the Advanced LinCMOSprocess. Combining this process with chopper-stabilization circuitry
makes excellent dc precision possible. In addition, circuit techniques are added that give the
TLC2654 and TLC2654A superior noise perfor mance.

Input Noise Voltage
  0.5 µV (Peak-to-Peak) Typ, f = 0 to 1 Hz
  1.5 µV (Peak-to-Peak)


other parts : 5962-9089502M2A 5962-9089502MCA 5962-9089502MPA 5962-9089504QCA 5962-9089504QPA TLC2654 TLC2654A TLC2654AC-8D TLC2654AC-8DG4 TLC2654AC-8DR 
Hitachi
HitachiHitachi
HA16654APS PWM Controlled Switching Regulator

The HA16654A and HA16664A are PWM control switching regulator ICs which drive a power MOSFET at high speed and high frequency. The standby current is limited to as small as 1.5 mA (typ). These devices incorporate totem pole circuits suited for high-speed push-pull operation at the output stage, accomplishing high-speed switching with rising time tr= 80 ns (typ) and falling time tf= 40 ns (typ) at 20 V swing.

Functions
•  Reference voltage circuit
• 


other parts : HA16654 HA16654A HA16654AFP HA16664A HA16664AFP HA16664APS 
TI
TITI
TLC2654ACP Advanced LinCMOSE PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS

description
The TLC2654 and TLC2654A are low-noise chopper-stabilized operational amplifiers using
the Advanced LinCMOSprocess. Combining this process with chopper-stabilization circuitry
makes excellent dc precision possible. In addition, circuit techniques are added that give the
TLC2654 and TLC2654A superior noise perfor mance.

Input Noise Voltage
  0.5 µV (Peak-to-Peak) Typ, f = 0 to 1 Hz
  1.5 µV (Peak-to-Peak)


other parts : 5962-9089502M2A 5962-9089502MCA 5962-9089502MPA 5962-9089504QCA 5962-9089504QPA TLC2654 TLC2654A TLC2654AC-8D TLC2654AC-8DG4 TLC2654AC-8DR 
TI
TITI
TLC2654AM8D Advanced LinCMOSE PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS

description
The TLC2654 and TLC2654A are low-noise chopper-stabilized operational amplifiers using
the Advanced LinCMOSprocess. Combining this process with chopper-stabilization circuitry
makes excellent dc precision possible. In addition, circuit techniques are added that give the
TLC2654 and TLC2654A superior noise perfor mance.

Input Noise Voltage
  0.5 µV (Peak-to-Peak) Typ, f = 0 to 1 Hz
  1.5 µV (Peak-to-Peak)


other parts : 5962-9089502M2A 5962-9089502MCA 5962-9089502MPA 5962-9089504QCA 5962-9089504QPA TLC2654 TLC2654A TLC2654AC-8D TLC2654AC-8DG4 TLC2654AC-8DR 
TI
TITI
TLC2654AMJGB Advanced LinCMOSE PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS

description
The TLC2654 and TLC2654A are low-noise chopper-stabilized operational amplifiers using
the Advanced LinCMOSprocess. Combining this process with chopper-stabilization circuitry
makes excellent dc precision possible. In addition, circuit techniques are added that give the
TLC2654 and TLC2654A superior noise perfor mance.

Input Noise Voltage
  0.5 µV (Peak-to-Peak) Typ, f = 0 to 1 Hz
  1.5 µV (Peak-to-Peak)


other parts : 5962-9089502M2A 5962-9089502MCA 5962-9089502MPA 5962-9089504QCA 5962-9089504QPA TLC2654 TLC2654A TLC2654AC-8D TLC2654AC-8DG4 TLC2654AC-8DR 
OKI
OKIOKI
MSM6654A-XXXRS Internal Mask ROM Voice Synthesis IC, Internal One-Time-Programmable (OTP) ROM Voice Synthesis IC, External ROM Drive Voice Synthesis IC

GENERAL DESCRIPTION
The MSM6650 family is the successor to OKI's MSM6375 family.  To ensure high-quality voice synthesis, the MSM6650 family members offer adaptive differential pulse-code modulation (ADPCM) playback, pulse-code modulation (PCM) playback, 12-bit D/A conversion, and on-chip –40 dB/octave low-pass filter (LPF).


other parts : MSM6650 MSM6650GS-BK MSM6650SS MSM6652 MSM6652-XXXGS-K MSM6652-XXXRS MSM6652A MSM6652A-XXXGS-K MSM6652A-XXXRS MSM6653 
Fujitsu
FujitsuFujitsu
MB90654APFV (MB90F65xA) 16-bit Proprietary Microcontroller

■ DESCRIPTION
The MB90650A series are 16-bit microcontrollers designed for high speed real-time processing in consumer product applications such as controlling celluar phones, CD-ROMs, or VTRs. Based on the F2MC*1-16L CPU core, an F2MC-16L is used as the CPU. This CPU includes high-level language-support instructions and robust task switching instructions, and additional addressing modes. In order to reduce the consumption current, dual clock (main/sub) is used. Furthermore, low


other parts : MB90652A MB90652APF MB90652APFV MB90653A MB90653APF MB90653APFV MB90654A MB90654APF MB90F654A MB90F654APF 
TI
TITI
TLC2654AC-8DR Advanced LinCMOSE PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS

description
The TLC2654 and TLC2654A are low-noise chopper-stabilized operational amplifiers using
the Advanced LinCMOSprocess. Combining this process with chopper-stabilization circuitry
makes excellent dc precision possible. In addition, circuit techniques are added that give the
TLC2654 and TLC2654A superior noise perfor mance.

Input Noise Voltage
  0.5 µV (Peak-to-Peak) Typ, f = 0 to 1 Hz
  1.5 µV (Peak-to-Peak)


other parts : 5962-9089502M2A 5962-9089502MCA 5962-9089502MPA 5962-9089504QCA 5962-9089504QPA TLC2654 TLC2654A TLC2654AC-8D TLC2654AC-8DG4 TLC2654ACP 

1

2


Key Word
System  Voltage  Analog  Audio  Axial  Battery  Bipolar  Bridge  Camera  Chip  Clock  Color  Connector  Control  Controller  Converter  Counter  Crystal  Decoder  Digital 

Sitemap Index

Language : [ English ] [ 한국어 ] [ 日本語 ] [ русский ] [ 简体中文 ] [ español ]

0  1  2  3  4  5  6  7  8  9  A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z 
74  1N  1PS  1SS  1SV  2N  2P  2SA  2SC  2SC3  2SC4  2SD  2SJ  2SK  2W  3N  4N  54AB  54AC  54ACT  54F  54LS  6N  74ABT  74AC  74ACQ  74ACT  74ACTQ  74AHC  74ALV  74ALVCH  74F  74FR  74HC  74HCT  74LCX  74LCXH  74LV  74LVQ  74LVT  74LVX  74V  74VC  74VHC  74VHCT  ACE  AD  AD2  AD3  AD4  AD8  AD9  ADC  ADD  ADE  ADF  ADM  ADP  ADR  ADV  AM  BA  BAT  BC  BCP  BCW  BCX  BD  BDW  BDX  BF  BTA  BTB  BU  BUZ  BY  BZW  BZX  CA  CB  CD  CNX  CS  CX  CXA  DAC  DBF  DM  DM74ALS  DM74AS  DM74LS  DM74S  ES  FAN  FC  FDC  FDD  FDG  FDN  FDS  FDT  FDZ  FFA  FFP  FGB  FIN  FJV  FM  FMB  FP  FQA  FQD  FQP  FSB  FST  FW  GMA  GS  HCF  HCPL  HLMP  HMA  HUFA  ILC  IRF  IRFP  IRFW  IRL  ISL  KA  KA4  KA7  KBL  KD  KDR  KDV  KF  KFM  KIA  KIA78  KIA79  KIC  KM  KRA  KRC  KRX  KSB  KSD  KSE  KSR  KTA  KTB  KTD  KTX  L78  L79  LA  LA5  LB  LC  LC7  LC78  LD  LF  LK  LM  LM3  LM4  LS  M27  M4  M74  M74HC4  M74HCT  M93  MC  MC14  MC33  MC34  MC74  MC78  MC79  MCR  MDA  MJ  MJE  ML  MMBD  MMBTH  MMSF  MOC  MSA  MTB  MTV  MV  NB  NE  NZT  OP  PD  PZT  QV  RIVA  SA  SB  SD  SFR  SI  SL  SM  SMB  SMP  SN74  SPI  SS  ST  ST24  ST6  ST9  STA  STB7  STD  STE  STK  STP  STP6N  STPR  STQ  STU  STX  TA  TC  TD  TDA  TDE  TEA  TIP  TL  TLP  TMP  TS  TS27L  TS27M  TS4  TS6  TS9  TSA  TYN  UA  UC  UF  ULN  VNH 

@ 2015 - 2017  [ Home ] [ Privacy Policy ] [ Request Datasheet ] [ Contact Us ]