Name: OP295GPZ
Brand: Hotenda
SKU: OP295GPZ
Price: 9.54000 USD
Availability: InStock

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OP295GPZ

Manufacturer part number:OP295GPZ

Manufacturer:Hotenda

Description:2 Channels 25mA per Channel 7nA 110 dB Instrumentational OP Amps 0.03μA 28V 3V~36V ±1.5V~18V OP295 8 Pins 8-DIP (0.300, 7.62mm)

Case Package:SOT-23

Datasheet:OP295GPZ Datasheet PDF

RoHs Status:non-compliant

Parameter Name	Value
Type	Parameter
Factory Lead Time	8 Weeks
Lifecycle Status	PRODUCTION (Last Updated: 2 weeks ago)
Contact Plating	Tin
Mounting Type	Through Hole
Package / Case	8-DIP (0.300, 7.62mm)
Surface Mount	NO
Number of Pins	8
Operating Temperature	-40°C~125°C
Packaging	Tube
JESD-609 Code	e3
Pbfree Code	no
Part Status	Active
Moisture Sensitivity Level (MSL)	1 (Unlimited)
Number of Terminations	8
ECCN Code	EAR99
Subcategory	Operational Amplifier
Technology	BICMOS
Terminal Position	DUAL
Number of Functions	2
Supply Voltage	15V
Base Part Number	OP295
Pin Count	8
Output Type	Rail-to-Rail
Operating Supply Voltage	28V
Number of Channels	2
Operating Supply Current	350μA
Nominal Supply Current	300μA
Quiescent Current	150μA
Slew Rate	0.03V/μs
Architecture	VOLTAGE-FEEDBACK
Amplifier Type	General Purpose
Common Mode Rejection Ratio	110 dB
Current - Input Bias	7nA
Voltage - Supply, Single/Dual (±)	3V~36V ±1.5V~18V
Output Current per Channel	25mA
Input Offset Voltage (Vos)	500μV
Bandwidth	85 kHz
Neg Supply Voltage-Nom (Vsup)	-15V
Unity Gain BW-Nom	85 kHz
Voltage Gain	140dB
Average Bias Current-Max (IIB)	0.03μA
Power Supply Rejection Ratio (PSRR)	110dB
Low-Offset	YES
Frequency Compensation	YES
Voltage - Input Offset	300μV
Micropower	YES
Dual Supply Voltage	15V
Height	3.43mm
Length	9.27mm
Width	7.24mm
Radiation Hardening	No
REACH SVHC	No SVHC
RoHS Status	ROHS3 Compliant
Lead Free	Contains Lead

OP295GPZ Product Details

OP295GPZ Description

The ability to swing rail-to-rail and supply 15 mA to the load makes the OP295/OP495 ideal drivers for power transistors and H bridges. This allows designs to achieve higher efficiencies and to transfer more power to the load than previously possible without the use of discrete components. For applications such as transformers that require driving inductive loads, increases in efficiency are also possible. Stability while driving capacitive loads is another benefit of this design over CMOS rail-to-rail amplifiers. This is useful for driving coax cable or large FET transistors. The OP295/OP495 are stable with loads in excess of 300 pF.