Texas Instruments
LMC660AIM/NOPB
LMC660AIM/NOPB
Regular price
$0.92 USD
Regular price
Sale price
$0.92 USD
Unit price
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LMC660AIM/NOPB Texas Instruments - Yeehing Electronics
Quad, 15.5-V, 1.4-MHz operational amplifier
Pricing (USD)
| Quantity | Unit Price |
| 1 — 99 | 2.321 |
| 100 — 249 | 2.034 |
| 250 — 999 | 1.426 |
| 1,000 + | 0.92 |
The above prices are for reference only.
Specifications
| Manufacturer | Texas Instruments |
| Product Category | Operational Amplifiers - Op Amps |
| RoHS | Y |
| Mounting Style | SMD/SMT |
| Package / Case | SOIC-14 |
| Supply Voltage - Max | 15.5 V |
| Output Current per Channel | 40 mA |
| Number of Channels | 4 Channel |
| GBP - Gain Bandwidth Product | 1.4 MHz |
| SR - Slew Rate | 1.1 V/us |
| CMRR - Common Mode Rejection Ratio | 63 dB to 83 dB |
| Ib - Input Bias Current | 4 pA |
| Vos - Input Offset Voltage | 3 mV |
| Supply Voltage - Min | 4.75 V |
| Operating Supply Current | 380 uA |
| Minimum Operating Temperature | - 40 C |
| Maximum Operating Temperature | + 85 C |
| Shutdown | No Shutdown |
| Series | LMC660 |
| Packaging | Tube |
| Height | 1.45 mm |
| Input Type | Rail-to-Rail |
| Length | 8.64 mm |
| Output Type | Rail-to-Rail |
| Product | Operational Amplifiers |
| Supply Type | Single |
| Technology | CMOS |
| Width | 3.91 mm |
| Brand | Texas Instruments |
| en - Input Voltage Noise Density | 22 nV/sqrt Hz |
| In - Input Noise Current Density | 0.0002 pA/sqrt Hz |
| Operating Supply Voltage | 5 V, 9 V, 12 V, 15 V |
| Product Type | Op Amps - Operational Amplifiers |
| PSRR - Power Supply Rejection Ratio | 70 dB |
| Factory Pack Quantity | 55 |
| Subcategory | Amplifier ICs |
| Voltage Gain dB | 126.02 dB |
| Unit Weight | 0.005626 oz |
For more information, please refer to datasheet
Documents
| LMC660AIM/NOPB Datasheet |
More Information
The LMC660 CMOS Quad operational amplifier is ideal for operation from a single supply. It operates from +5V to +15.5V and features rail-to-rail output swing in addition to an input common-mode range that includes ground. Performance limitations that have plagued CMOS amplifiers in the past are not a problem with this design. Input VOS, drift, and broadband noise as well as voltage gain into realistic loads (2 kΩ and 600Ω) are all equal to or better than widely accepted bipolar equivalents.
