Orderable parts
Type number | Orderable part number | Ordering code (12NC) | Package | Buy from distributors |
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74LVC1G17GW | 74LVC1G17GW,125 | 935270079125 | SOT353-1 | Order product |
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Click here for more informationSingle Schmitt trigger buffer
The 74LVC1G17 is a single buffer Schmitt-trigger. Inputs can be driven from either 3.3 V or 5 V devices. This feature allows the use of these devices as translators in mixed 3.3 V and 5 V environments. This device is fully specified for partial power down applications using IOFF. The IOFF circuitry disables the output, preventing the potentially damaging backflow current through the device when it is powered down.
Wide supply voltage range from 1.65 V to 5.5 V
Overvoltage tolerant inputs to 5.5 V
High noise immunity
CMOS low power dissipation
IOFF circuitry provides partial Power-down mode operation
±24 mA output drive (VCC = 3.0 V)
Latch-up performance exceeds 250 mA
Direct interface with TTL levels
Unlimited rise and fall times
Complies with JEDEC standard:
JESD8-7 (1.65 V to 1.95 V)
JESD8-5 (2.3 V to 2.7 V)
JESD8C (2.7 V to 3.6 V)
JESD36 (4.5 V to 5.5 V)
ESD protection:
HBM: ANSI/ESDA/JEDEC JS-001 class 2 exceeds 2000 V
CDM: ANSI/ESDA/JEDEC JS-002 class C3 exceeds 1000 V
Multiple package options
Specified from -40 °C to +85 °C and -40 °C to +125 °C
Type number | VCC (V) | Logic switching levels | Output drive capability (mA) | fmax (MHz) | Nr of bits | Power dissipation considerations | Tamb (°C) | Package name |
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74LVC1G17GW | 1.65 - 5.5 | CMOS/LVTTL | ± 32 | 175 | 1 | low | -40~125 | TSSOP5 |
Model Name | Description |
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Type number | Orderable part number, (Ordering code (12NC)) | Status | Marking | Package | Package information | Reflow-/Wave soldering | Packing |
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74LVC1G17GW | 74LVC1G17GW,125 (935270079125) |
Active | VJ |
TSSOP5 (SOT353-1) |
SOT353-1 |
WAVE_BG-BD-1
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SOT353-1_125 |
Part number | Description | Type | Quick links | Shop link |
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Description The NX-HB-GAN039-TSCUL top-side cooled half-bridge evaluation board provides the elements of a simple buck or boost converter. This enables the basic study of the switching characteristics and efficiency achievable with Nexperia’s 650 V GaN FETs. The circuit can be configured for synchronous rectification, in either buck or boost mode. Selection jumpers allow the use of a single logic input or separate high side & low side logic inputs. The high-voltage input and output can operate at up to 400 V DC, with a power output of up to 3.5 kW or more, dependent upon cooling, ambient temperature and switching frequency. The inductor provided is intended for efficient operation at 100 kHz, however, other inductors and frequencies may be used.
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Type Evaluation board
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Quick links
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Shop link
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Description The NX-HB-GAN039-BSCUL bottom-side cooled half-bridge evaluation board provides the elements of a simple buck or boost converter. This enables the basic study of the switching characteristics and efficiency achievable with Nexperia’s 650 V GaN FETs. The circuit can be configured for synchronous rectification, in either buck or boost mode. Selection jumpers allow the use of a single logic input or separate high side & low side logic inputs. The high-voltage input and output can operate at up to 400 V DC, with a power output of up to 3.5 KW or more, dependent upon cooling, ambient temperature and switching frequency. The inductor provided is intended for efficient operation at 100 kHz, however, other inductors and frequencies may be used.
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Type Evaluation board
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Quick links
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Shop link
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Description The NX-HB-GAN111UL half-bridge evaluation board provides the elements of a simple buck or boost converter. This enables the basic study of the switching characteristics and efficiency achievable with Nexperia’s 650V Cascode GaN FETs. The circuit is configured for synchronous rectification, in either buck or boost mode. Selection jumpers allow the use of a single logic input or separate high / low level inputs. The voltage input and output can operate at up to 400 VDC, with a power output > 2000 Watts.
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Type Evaluation board
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Quick links
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Shop link
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Type number | Orderable part number | Chemical content | RoHS | RHF-indicator |
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74LVC1G17GW | 74LVC1G17GW,125 | 74LVC1G17GW |
File name | Title | Type | Date |
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74LVC1G17 | Single Schmitt trigger buffer | Data sheet | 2024-09-03 |
AN10161 | PicoGate Logic footprints | Application note | 2002-10-29 |
AN11009 | Pin FMEA for LVC family | Application note | 2019-01-09 |
Nexperia_document_guide_MiniLogic_PicoGate_201901 | PicoGate leaded logic portfolio guide | Brochure | 2019-01-07 |
SOT353-1 | 3D model for products with SOT353-1 package | Design support | 2019-09-23 |
lvc1g17 | 74LVC1G17 IBIS model | IBIS model | 2018-05-25 |
Nexperia_package_poster | Nexperia package poster | Leaflet | 2020-05-15 |
TSSOP5_SOT353-1_mk | plastic, thin shrink small outline package; 5 leads; 0.65 mm pitch; 2 mm x 1.25 mm x 0.95 mm body | Marcom graphics | 2018-07-25 |
SOT353-1 | plastic thin shrink small outline package; 5 leads; body width 1.25 mm | Package information | 2022-11-15 |
SOT353-1_125 | TSSOP5; Reel pack for SMD, 7"; Q3/T4 product orientation | Packing information | 2023-02-21 |
74LVC1G17GW_Nexperia_Product_Reliability | 74LVC1G17GW Nexperia Product Reliability | Quality document | 2024-06-16 |
WAVE_BG-BD-1 | Wave soldering profile | Wave soldering | 2021-09-08 |
If you are in need of design/technical support, let us know and fill in the answer form we'll get back to you shortly.
Model Name | Description |
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Type number | Orderable part number | Ordering code (12NC) | Status | Packing | Packing Quantity | Buy online |
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74LVC1G17GW | 74LVC1G17GW,125 | 935270079125 | Active | SOT353-1_125 | 3,000 | Order product |
As a Nexperia customer you can order samples via our sales organization.
If you do not have a direct account with Nexperia our network of global and regional distributors is available and equipped to support you with Nexperia samples. Check out the list of official distributors.
The interactive datasheets are based on the Nexperia MOSFET precision electrothermal models. With our interactive datasheets you can simply specify your own conditions interactively. Start by changing the values of the conditions. You can do this by using the sliders in the condition fields. By dragging the sliders you will see how the MOSFET will perform at the new conditions set.