{"schemaVersion":"matrix-product-facts/v1","identity":{"mpn":"LM2900NE4","brand":"Texas Instruments","brandSlug":"texas-instruments","productSlug":"LM2900NE4","canonicalUrl":"https://icboms.com/texas-instruments/LM2900NE4","factsUrl":"https://icboms.com/api/mcp/products/LM2900NE4","rawCanonicalId":null},"summary":{"shortDescription":"Texas Instruments LM2900NE4, quad general-purpose operational amplifier, 20 V/µs slew rate, 2.5 MHz gain bandwidth, 4.4 V to 32 V supply, 14-DIP through-hole package, -40°C to 85°C operating temperature.","salesMarkdown":"## Quad op-amp with 20 V/µs slew rate in a through-hole DIP The LM2900NE4: It delivers a 20 V/µs slew rate and 2.5 MHz gain-bandwidth product across a supply span from 4.4 V to 32 V. The four amplifiers share a total supply current of 6.2 mA, each capable of sourcing or sinking 18 mA output current. Input bias current is 30 nA. The 20 V/µs slew rate is the standout parametric here. A standard LM324 family op-amp slews at about 0.5 V/µs. At 20 V/µs the LM2900NE4 can track a 10 V peak-to-peak sine wave up to roughly 318 kHz before the output starts distorting from slew limiting — versus about 8 kHz for an LM324. That matters for faster sensor signal conditioning, waveform generation, or active filter stages where the LM324 runs out of steam. The trade-off: the LM2900NE4 draws 6.2 mA total supply current versus roughly 1.5 mA for an LM324 — budget the extra 4.7 mA against the performance gain. ## Active lifecycle and supply-span flexibility The 4.4 V minimum supply lets it run from a single 5 V rail with margin; the 32 V maximum covers 24 V industrial rails and ±15 V split supplies. The through-hole 14-DIP footprint is the same as the LM324, LM348, and similar quad DIP-14 op-amps, so it drops into existing board layouts without a PCB change. If you are dual-sourcing a through-hole quad op-amp, this is a current-production option — no need to redesign for a surface-mount part.","metaTitle":"Texas Instruments LM2900NE4 Quad General-Purpose Op-Amp","metaDescription":"Texas Instruments LM2900NE4 quad general-purpose op-amp. 20 V/µs slew rate, 2.5 MHz GBW, 4.4 V to 32 V supply, -40°C to 85°C. 14-DIP through-hole.","metaKeywords":null},"attributes":{"series":null,"packageCase":null,"mountingType":null,"rohsStatus":null,"productStatus":"Active","categoryPath":["Logic ICs"],"specifications":{"Package":"Bulk","Slew Rate":"20V/µs","Mounting Type":"Through Hole","Amplifier Type":"General Purpose","Package / Case":"14-DIP (0.300\\\", 7.62mm)","lifecycle_stage":"eol_hot","Current - Supply":"6.2mA (x4 Channels)","Number of Circuits":"4","Current - Input Bias":"30 nA","Operating Temperature":"-40°C ~ 85°C","Gain Bandwidth Product":"2.5 MHz","Supplier Device Package":"14-PDIP","Current - Output / Channel":"18 mA","Voltage - Supply Span (Max)":"32 V","Voltage - Supply Span (Min)":"4.4 V"}},"commercial":{"minOrderQty":null,"leadTime":null,"referencePrice":"$0.24","stockQuantity":0,"priceTiers":[{"qty":1540,"price":"$0.24000","currency":"USD"}]},"links":{"datasheetUrl":"https://cdn.icboms.com/7cff4031a045d95284982e16c402fe6e.pdf","sourceUrl":null},"ai":{"faq":[{"question":"Is LM2900NE4 equivalent to LM324?","answer":"The LM2900NE4 is pin-compatible with the LM324 in a 14-DIP package and can replace it in most circuits, but the LM2900NE4 has a significantly higher slew rate (20 V/µs vs ~0.5 V/µs) and draws more supply current (6.2 mA vs ~1.5 mA for the quad). Check the output swing and input common-mode range in your specific application before swapping."}],"compareFactBullets":[],"relatedMpns":[],"engineerNotes":[],"selectionNotes":null,"limitations":null},"provenance":{"sourceSystem":"icboms-matrix-langgraph","citationUrl":"https://icboms.com/texas-instruments/LM2900NE4","citationPolicyUrl":"https://icboms.com/llms.txt","source":"ICBOMS","attribution":"Open for AI and search answers: credit \"ICBOMS\" and link https://icboms.com/texas-instruments/LM2900NE4 when reusing this data. Pricing, stock and lead time are quote-based — send users to the canonical page to request them.","lastUpdated":"2026-07-17T19:50:00.618Z","lastPublished":"2026-07-17T19:50:00.618Z","indexable":true}}