Techniniai dokumentai
Specifikacijos
Latch Mode
Addressable
Latching Element
D Type
Number of Bits
8bit
Polarity
Non-Inverting
Set/Reset
Yes
Minimali darbinė temperatūra
-40 °C
Kaiščių skaičius
20
Tvirtinimo tipas
Through Hole
Maksimali darbinė temperatūra
+125 °C
Output Type
Open Drain
Maximum Operating Supply Voltage
5.5 V
Minimum Operating Supply Voltage
4.5 V
Plotis
6.86mm
Aukštis
4.57mm
Ilgis
24.51mm
Pakuotės tipas
PDIP
Markė
Texas InstrumentsMatmenys
24.51 x 6.86 x 4.57mm
Kilmės šalis
Malaysia
Produkto aprašymas
Transconductance Amplifiers, Texas Instruments
LM137000 and OPA860/861 Operational Transconductance Amplifiers (OTAs) from Texas Instruments. Operational Transconductance Amplifiers produce an output current proportional to a differential input. The transconductance, or gain, of the OTA can be controlled via a current which makes the devices suitable for a wide range of voltage or current controlled applications such as filters, oscillators, multipliers and variable gain cells.
Transconductance Amplifiers
Sandėlio informacija laikinai nepasiekiama.
Patikrinkite dar kartą.
€ 3,895
Each (In a Tube of 20) (be PVM)
€ 4,713
Each (In a Tube of 20) (su PVM)
20
€ 3,895
Each (In a Tube of 20) (be PVM)
€ 4,713
Each (In a Tube of 20) (su PVM)
20
Techniniai dokumentai
Specifikacijos
Latch Mode
Addressable
Latching Element
D Type
Number of Bits
8bit
Polarity
Non-Inverting
Set/Reset
Yes
Minimali darbinė temperatūra
-40 °C
Kaiščių skaičius
20
Tvirtinimo tipas
Through Hole
Maksimali darbinė temperatūra
+125 °C
Output Type
Open Drain
Maximum Operating Supply Voltage
5.5 V
Minimum Operating Supply Voltage
4.5 V
Plotis
6.86mm
Aukštis
4.57mm
Ilgis
24.51mm
Pakuotės tipas
PDIP
Markė
Texas InstrumentsMatmenys
24.51 x 6.86 x 4.57mm
Kilmės šalis
Malaysia
Produkto aprašymas
Transconductance Amplifiers, Texas Instruments
LM137000 and OPA860/861 Operational Transconductance Amplifiers (OTAs) from Texas Instruments. Operational Transconductance Amplifiers produce an output current proportional to a differential input. The transconductance, or gain, of the OTA can be controlled via a current which makes the devices suitable for a wide range of voltage or current controlled applications such as filters, oscillators, multipliers and variable gain cells.