PTLV9052IDSGR Texas Instruments Integrated Circuit (Small Outline No-lead) In Stock
Texas Instruments PTLV9052IDSGR is a CMOS operational amplifier featuring 5 MHz gain-bandwidth product, 13 V/µs slew rate, and rail-to-rail input and output swing, designed for cost-sensitive signal conditioning and sensor interface applications in space-constrained designs.
- Manufacturer
- Texas Instruments
- Package
- Small Outline No-lead
- Pin Count
- 9
- Lifecycle
- OBSOLETE
- Datasheet
- PTLV9052IDSGR Datasheet PDF
- Category
- Integrated Circuit
- RoHS
- Compliant
- Lead Time
- 3–7 business days
- Shipping
- DHL Express · Worldwide
Key Features
- 5 MHz gain-bandwidth product for moderate-speed signal amplification
- 13 V/µs slew rate enables clean reproduction of fast-changing analog signals
- Rail-to-rail input and output (RRIO) for maximum dynamic range at low supply voltages
- CMOS architecture for low quiescent current in power-sensitive portable designs
- Small-outline no-lead (SON/DSG) package for compact PCB footprint
- Optimized for cost-sensitive consumer and industrial systems
Applications
The PTLV9052IDSGR is suited for sensor signal conditioning, active filter stages, and transimpedance amplifier circuits in cost-sensitive consumer electronics, industrial IoT nodes, and portable medical devices. Its rail-to-rail swing and 5 MHz bandwidth make it practical for amplifying low-level sensor outputs before feeding 12-bit or 16-bit ADCs in single-supply 3.3 V or 5 V systems.
Specifications
| YTEOL | 0 |
| Amplifier Type | OPERATIONAL AMPLIFIER |
| Package | Small Outline No-lead |
Compliance & Regulatory
| RoHS Status | Compliant |
| Lead-Free | Yes (Pb-Free) |
| ECCN | EAR99 |
| HTS Code | 8542.33.00.01 |
Alternate & Equivalent Parts
Compatible alternatives and drop-in replacements for PTLV9052IDSGR:
Frequently Asked Questions
What gain-bandwidth product and slew rate does PTLV9052IDSGR provide for audio or sensor signal paths?
PTLV9052IDSGR offers a 5 MHz gain-bandwidth product and a 13 V/µs slew rate. At a closed-loop gain of 10, the usable bandwidth extends to 500 kHz, and the 13 V/µs slew rate limits large-signal distortion for signals up to several hundred kilohertz in precision sensor or audio front-end designs.
How does rail-to-rail input and output operation benefit PTLV9052IDSGR in single-supply 3.3 V systems?
Rail-to-rail input and output operation allows the PTLV9052IDSGR to process input signals that swing to within millivolts of the supply rails and drive outputs equally close to 0 V and 3.3 V, maximizing the usable dynamic range in single-supply designs and reducing the need for a negative supply rail.
Which package does PTLV9052IDSGR come in and how does it compare in size to a standard SOIC-8 op-amp?
PTLV9052IDSGR uses a small-outline no-lead (SON/DSG) package with a body area roughly 60% smaller than a standard SOIC-8. The no-lead package also improves thermal performance and reduces parasitic lead inductance, benefiting high-frequency signal integrity at 5 MHz bandwidth.
For a 12-bit ADC front-end running at 100 kSps, is PTLV9052IDSGR's 5 MHz bandwidth adequate?
Yes. A 100 kSps ADC requires the amplifier to settle to 12-bit accuracy within one sample period of 10 µs. With 5 MHz gain-bandwidth product and a settling time well under 1 µs at unity gain, PTLV9052IDSGR provides more than 10× margin for a 12-bit, 100 kSps conversion pipeline.
Related Guides
1206 100 uF MLCC Design Guide for Compact Bulk Decoupling
Design guidance for applying CL31A107MQHNNNE and related 1206 MLCCs in compact bulk decoupling networks.
Jul 3, 2026
0402 10 nF MLCC Design Guide for High-Speed Decoupling
Practical design guidance for using CL05B103KB5NNNC and related 0402 MLCCs in high-speed decoupling networks.
Jul 3, 2026
CL31A107MQHNNNE 1206 100 uF MLCC Selection Guide
How to choose CL31A107MQHNNNE and related 1206 MLCCs for low-voltage bulk capacitance and regulator stability.
Jul 2, 2026
CL05B103KB5NNNC 0402 10 nF X7R MLCC Selection Guide
How to choose CL05B103KB5NNNC and related 0402 MLCCs for bypassing, filtering, voltage derating, and sourcing.
Jul 2, 2026
Why Buy from FindMyChip
About Texas Instruments
Texas Instruments (TI) is a global semiconductor company headquartered in Dallas, Texas. TI designs and manufactures analog and embedded processing chips used in industrial, automotive, consumer, communications, and enterprise systems.
In Stock · 24h Response · Worldwide Shipping
Response within 24 hours · Worldwide shipping
“FindMyChip sourced our entire STM32 BOM in 48 hours when our usual distributor had 16-week lead times.”