TLV9061IDBVR

The TLV9061IDBVR is an electronic component from Texas Instruments. View the full TLV9061IDBVR datasheet below including key specifications, electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Key Specifications

Parameter	Value
Amplifier Type	CMOS
Input Bias Current	0.5 pA
Current - Output / Channel	50 mA
Quiescent Current	538µA
Gain Bandwidth Product	10 MHz
Mounting Type	Surface Mount
Number of Circuits	1
Operating Temperature	-40°C ~ 125°C (TA)
Output Type	Rail-to-Rail
Package / Case	SC-74A, SOT-753
Slew Rate	6.5V/µs
Supplier Device Package	SOT-23-5
Input Offset Voltage	300 µV
Supply Voltage Span (Max)	5.5 V
Supply Voltage Span (Min)	1.8 V

Overview

Part: TLV906xS, TLV906x from Texas Instruments

Type: CMOS Operational Amplifiers

Description: The TLV906x and TLV906xS are 1.8–5.5V, 10MHz unity-gain stable CMOS operational amplifiers with rail-to-rail input and output, featuring low input offset voltage of ±0.3mV and low quiescent current of 538μA.

Operating Conditions:

Supply voltage: 1.8–5.5 V
Operating temperature: -40 to 125 °C
Input voltage range: (V-) - 0.1 to (V+) + 0.1 V
Output voltage range: V- to V+

Absolute Maximum Ratings:

Max supply voltage: 6 V
Max continuous input current: ±10 mA
Max junction temperature: 150 °C
Max storage temperature: 150 °C

Key Specs:

Input offset voltage: ±0.3mV
Unity-gain bandwidth: 10MHz
Broadband noise: 10nV/√ Hz
Input bias current: 0.5pA
Quiescent current: 538μA
Capacitive load drive: 100pF
Unity-gain stable
Rail-to-rail input and output

Features:

Rail-to-rail input and output
Low input offset voltage: ±0.3mV
Unity-gain bandwidth: 10MHz
Low broadband noise: 10nV/√ Hz
Low input bias current: 0.5pA
Low quiescent current: 538μA
Unity-gain stable
Internal RFI and EMI filter
Operational at supply voltages as low as 1.8V
Easier to stabilize with higher capacitive load due to resistive open-loop output impedance
Shutdown version: TLV906xS
Extended temperature range: -40°C to 125°C

Applications:

E-bikes
Smoke detectors
HVAC: heating, ventilating, and air conditioning
Motor control: AC induction
Refrigerators
Wearable devices
Laptop computers
Washing machines
Sensor signal conditioning
Power modules
Barcode scanners
Active Filters
Low-side current sensing

Package:

SOT-23 (5-pin, 6-pin, 8-pin)
SC70 (5-pin)
SOT-553 (5-pin)
X2SON (5-pin)
USON (6-pin)
SOIC (8-pin, 14-pin)
TSSOP (8-pin, 14-pin)
VSSOP (8-pin, 10-pin)
WSON (8-pin)
X2QFN (10-pin, 14-pin)
DSBGA (9-pin)
WQFN (16-pin)

Features

Rail-to-rail input and output
Low input offset voltage: ±0.3mV
Unity-gain bandwidth: 10MHz
Low broadband noise: 10nV/√ Hz
•
Low input bias current: 0.5pA
Low quiescent current: 538μA
Unity-gain stable
Internal RFI and EMI filter
Operational at supply voltages as low as 1.8V
Easier to stabilize with higher capacitive load due to resistive open-loop output impedance
Shutdown version: TLV906xS
Extended temperature range: -40°C to 125°C

Applications

E-bikes
Smoke detectors
HVAC: heating, ventilating, and air conditioning
Motor control: AC induction
Refrigerators
Wearable devices
Laptop computers
Washing machines
Sensor signal conditioning
Power modules
Barcode scanners
Active Filters
Low-side current sensing

Pin Configuration

Figure 4-1. TLV9061 DBV or DRL Package, 5-Pin SOT-23 or SOT-553 (Top View)

Figure 4-2. TLV9061 DCK Package, 5-Pin SC70 (Top View)

Figure 4-3. TLV9061 DPW Package, 5-Pin X2SON (Top View)

Table 4-1. Pin Functions: TLV9061

PIN	PIN	PIN	PIN
NAME	SOT-23, SOT-553	SC70	X2SON
IN-	4	3	2
IN+	3	1	4
OUT	1	4	1
V-	2	2	3
V+	5	5	5

(1) I = input, O = output

Table 4-1. Pin Functions: TLV9061

Figure 4-4. TLV9061S DBV Package, 6-Pin SOT-23 (Top View)

Figure 4-5. TLV9061S DRY Package, 6-Pin USON (Top View)

Table 4-2. Pin Functions: TLV9061S

PIN	PIN	PIN	TYPE (1)	DESCRIPTION
NAME	SOT-23	USON	TYPE (1)	DESCRIPTION
IN-	4	3	I	Inverting input
IN+	3	1	I	Noninverting input
OUT	1	4	O	Output
SHDN	5	5	I	Shutdown: low = amp disabled, high = amp enabled. See Shutdown Function section for more information.
V-	2	2	I or-	Negative (low) supply or ground (for single-supply operation)
V+	6	6	I	Positive (high) supply

Electrical Characteristics

For VS (Total Supply Voltage) = (V+) - (V-) = 1.8V to 5.5V at T A = 25°C, R L = 10 kΩ connected to VS / 2, VCM = VS / 2, and VOUT = VS / 2 (unless otherwise noted)

	PARAMETER	TEST CONDITIONS	MIN	TYP	MAX	UNIT
OFFSET VOLTAGE	OFFSET VOLTAGE	OFFSET VOLTAGE	OFFSET VOLTAGE	OFFSET VOLTAGE	OFFSET VOLTAGE	OFFSET VOLTAGE
V	Input offset voltage	V S = 5V		±0.3	±1.6	mV
OS		V S = 5V, T A = -40°C to 125°C			±2
dV OS /dT	Drift	V S = 5V, T A = -40°C to 125°C		±0.53		μV/°C
PSRR	Power-supply rejection ratio	V S = 1.8V - 5.5V, V CM = (V-)		±7	±80	μV/V
	Channel separation, DC	At DC		100		dB
INPUT VOLTAGE RANGE	INPUT VOLTAGE RANGE	INPUT VOLTAGE RANGE	INPUT VOLTAGE RANGE	INPUT VOLTAGE RANGE	INPUT VOLTAGE RANGE	INPUT VOLTAGE RANGE
V CM	Common-mode voltage range	V S = 1.8V to 5.5V	(V-) - 0.1		(V+) + 0.1	V
CMRR	Common-mode rejection ratio	V S = 5.5V, (V-) - 0.1V < V CM < (V+) - 1.4V, T A = -40°C to 125°C V S = 5.5V, V CM = -0.1V to 5.6V, T A = -40°C to 125°C V S = 1.8V, (V-) - 0.1V < V CM < (V+) - 1.4V,	80 57	103 87		dB
INPUT BIAS CURRENT	INPUT BIAS CURRENT	INPUT BIAS CURRENT
I B	Input bias current			±0.5		pA
I OS	Input offset current			±0.05		pA
E n Input peak) e n Input	voltage noise (peak-to- voltage noise density density	V S = 5V, f = 10kHz V S = 5V, f = V S = 5V, f = 0.1Hz to 10Hz		10 16 4.77		nV/√ Hz μV PP
i n	Input current noise	1kHz f = 1kHz		23		fA/√ Hz
INPUT CAPACITANCE	INPUT CAPACITANCE	INPUT CAPACITANCE	INPUT CAPACITANCE	INPUT CAPACITANCE	INPUT CAPACITANCE	INPUT CAPACITANCE
C ID	Differential			2		pF
C IC	Common-mode			4		pF
OPEN-LOOP GAIN	OPEN-LOOP GAIN	OPEN-LOOP GAIN	OPEN-LOOP GAIN	OPEN-LOOP GAIN	OPEN-LOOP GAIN	OPEN-LOOP GAIN
A OL	Open-loop voltage gain	V S = 1.8V, (V-) + 0.04V < V O < (V+) - 0.04V, R L = 10kΩ V S = 5.5V, (V-) + 0.05V < V O < (V+) - 0.05V,		100		dB
		R L = 10kΩ V S = 1.8V, (V-) + 0.06V < V O < (V+) - 0.06V,	104	130		dB
GBP Gain φ	bandwidth product Phase margin	V S = 5V, G = +1 V S = 5V, G = +1		10 55		MHz
m SR	Slew rate	V = 5V, G = +1 S		6.5		° V/μs
t S	Settling time	To 0.1%, V S = 5V, 2V step , G = +1, C L = 100pF To 0.01%, V S = 5V, 2V step, G = +1, C L = 100pF		0.5 1		μs
t OR	Overload recovery time	V S = 5V, V IN × gain > V S		0.2		μs
THD + N	Total harmonic distortion +	V S = 5.5V, V CM = 2.5V, V O = 1V RMS , G = +1,		0.0008%
OUTPUT	noise (1)	f = 1kHz
V O	Voltage output swing from supply rails	V S = 5.5V, R L = 10kΩ			20	mV
I SC	Short-circuit current	V S = 5.5V, R L = 2kΩ V S = 5V		±50	60	mA

For VS (Total Supply Voltage) = (V+) - (V-) = 1.8V to 5.5V at T A = 25°C, R L = 10 kΩ connected to VS / 2, VCM = VS / 2, and VOUT = VS / 2 (unless otherwise noted)

Absolute Maximum Ratings

over operating ambient temperature (unless otherwise noted) (1)

			MIN	MAX	UNIT
Supply voltage [(V+) - (V-)]	Supply voltage [(V+) - (V-)]	Supply voltage [(V+) - (V-)]	0	6	V
Signal input pins		Common-mode	(V-) - 0.5	(V+) + 0.5	V
Signal input pins		Differential		(V+) - (V-) + 0.2	V
Signal input pins	Current (2)	Current (2)	-10	10	mA
Output short-circuit (3)	Output short-circuit (3)	Output short-circuit (3)	Continuous		mA
	Specified, T A	Specified, T A	-40	125	°C
	Junction, T J	Junction, T J		150	°C
	Storage, T stg	Storage, T stg	-65	150	°C

Recommended Operating Conditions

over operating ambient temperature range (unless otherwise noted)

		MIN	MAX	UNIT
V S	Supply voltage (V S = [V+] - [V-])	1.8	5.5	V
V I	Input voltage range	(V-) - 0.1	(V+) + 0.1	V
V O	Output voltage range	V-	V+	V
V SHDN_IH	High level input voltage at shutdown pin (amplifier enabled)	1.1	V+	V
V SHDN_IL	Low level input voltage at shutdown pin (amplifier disabled)	V-	0.2	V
T A	Specified temperature	-40	125	°C

Thermal Information

Figure 4-14. TLV9064S RTE Package, 16-Pin WQFN With Exposed Thermal Pad (Top View)

Table 4-6. Pin Functions: TLV9064S

PIN	PIN	TYPE (1)	DESCRIPTION
NAME	NO.	TYPE (1)	DESCRIPTION
IN1-	16	I	Inverting input, channel 1
IN1+	1	I	Noninverting input, channel 1
IN2-	4	I	Inverting input, channel 2
IN2+	3	I	Noninverting input, channel 2
IN3-	9	I	Inverting input, channel 3
IN3+	10	I	Noninverting input, channel 3
IN4-	13	I	Inverting input, channel 4
IN4+	12	I	Noninverting input, channel 4
OUT1	15	O	Output, channel 1
OUT2	5	O	Output, channel 2
OUT3	8	O	Output, channel 3
OUT4	14	O	Output, channel 4
SHDN12	6	I	Shutdown: low = amp disabled, high = amp enabled. Channel 1. See Shutdown Function section for more information.
SHDN34	7	I	Shutdown: low = amp disabled, high = amp enabled. Channel 1. See Shutdown Function section for more information.
V-	11	I or-	Negative (low) supply or ground (for single-supply operation)
V+	2	I	Positive (high) supply

(1) I = input, O = output

Table 4-6. Pin Functions: TLV9064S

www.ti.com

Typical Application

The TLV906x family features 10MHz bandwidth and 6.5V/μs slew rate with only 538μA of supply current per channel, providing good AC-performance at very low power consumption. DC applications are well served with a very low input noise voltage of 10nV/√ Hz at 10kHz, low input bias current, and a typical input offset voltage of 0.3mV.

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
TLV9062	Texas Instruments	—
TLV9062-Q1	Texas Instruments	—
TLV9062IDDFR	Texas Instruments	—
TLV9062IDDFR.A	Texas Instruments	—
TLV9062IDGKR	Texas Instruments	—
TLV9062IDGKR.A	Texas Instruments	—
TLV9062IDGKRG4	Texas Instruments	—
TLV9062IDGKT	Texas Instruments	—
TLV9062IDGKT.A	Texas Instruments	—
TLV9062IDR	Texas Instruments	—
TLV9062IDR.A	Texas Instruments	—
TLV9062IDRG4	Texas Instruments	—
TLV9062IDRG4.A	Texas Instruments	—
TLV9062IDSGR	Texas Instruments	—
TLV9062IDSGR.A	Texas Instruments	—
TLV9062IDSGRG4	Texas Instruments	—
TLV9062IDSGT	Texas Instruments	—
TLV9062IDSGT.A	Texas Instruments	—
TLV9062IPWR	Texas Instruments	—
TLV9062IPWR.A	Texas Instruments	—
TLV9062S	Texas Instruments	—
TLV9062SIDGSR	Texas Instruments	—
TLV9062SIRUGR	Texas Instruments	—
TLV9062SIYCKR	Texas Instruments	—

Data on this page is extracted from publicly available manufacturer datasheets using automated tools including AI. It may contain errors or omissions. Always verify specifications against the official manufacturer datasheet before making design or purchasing decisions. See our Terms of Service. Rights holders can submit a takedown request.

Get structured datasheet data via API

Get started free