LFSPXO009441

CRYSTAL OSCILLATOR, SMD, 80MHZ

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Manufacturer: IQD FREQUENCY PRODUCTS
Product type: Standard Oscillators
Frequency Nom:80MHz; Frequency Stability + / -:50ppm; Oscillator Case:SMD, 7mm x 5mm; Supply Voltage Nom:3.3V; Product Range:-; Operating Temperature Min:0°C; Operating Temperature Max:70°
SVHC: No SVHC (04-Feb-2026)
Frequency Nom: 80MHz
Product Range: CFPS-73 Series
Supply Voltage Nom: 3.3V
Frequency Stability + / -: 50ppm
Operating Temperature Max: 70°C
Operating Temperature Min: 0°C
Oscillator Case / Package: SMD, 7mm x 5mm
Oscillator Output Compatibility: HCMOS

Delivery and price
Units per pack	500
Price	1.58 €
Current stock	10+
Lead time	30 days

Datasheet

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SPXOs<br>SURFACE MOUNT<br>**----- End of picture text -----**<br>


## **CFPS-72, -73** 

## **ISSUE 5; 19 OCTOBER 2004** 

## **Delivery Options** 

- I Common frequencies are available from stock. Please see stock list or contact sales office 

## **Output Compatibility** 

- I Tri-state HCMOS/TTL (5.0V) (CFPS-72), Load 15pF max 

- I Tri-state HCMOS (3.3V) (CFPS-73), Load 15pF max 

## **Package Outline** 

- I 7.0 x 5.0mm SMD Ceramic Package. Available over 0 to 70°C (CFPS-72, -73) or –40 to 85°C (CFPS-72I, -73I) 

## **Standard Frequency Stabilities** 

- I ±20ppm, ±25ppm, ±50ppm, ±100ppm (inclusive of supply voltage & output load variations over the operating temperature range) 

## **Operating Temperature Range** 

- I 0 to 70°C (CFPS-72, -73) 

- I –40 to 85°C (CFPS-72I, -73I) 

## **Storage Temperature Range** 

- I –55 to 125°C 

## **Tri-state Operation** 

- I Logic ‘1’ to pad 1 enables oscillator output, 2.2V min 

- I Logic ‘0’ to pad 1 disables oscillator output; when disabled the oscillator output goes to the high impedance state, 0.8V max 

- I No connection to pad 1 enables oscillator output 

## **Solder Conditions** 

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Outline in mm<br>      7.0±0.2<br>Pad Connections<br>1. N/C or Enable/Disable<br>2. GND<br>3. Output<br>4. +Vs<br>5.08    1.8  3.28<br>1 2<br>4 3<br>1.4<br>Solder pad layout<br>5.0±0.2<br>1.8±0.2<br>1.0<br>3.0<br>     2.2<br>     2.0<br>**----- End of picture text -----**<br>


## **Output Waveform** 

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+Vs tf tr<br>90%Vs<br>50%Vs<br>2.4V<br>1.4V<br>10%Vs<br>0.4V<br>0V t<br>T<br>Duty cycle =  t  x 100(%)<br>T<br>**----- End of picture text -----**<br>


- I For typical soldering conditions, please see the relevant pages in Applications Notes 

## **Marking** 

- I Model number (+ Operating Temperature Code; if applicable) 

- I Frequency Stability Code 

- I Frequency 

## **Minimum Order Information Required** 

- I Frequency + Model Number + Operating Temperature Code (if applicable) + Frequency Stability 

- I Please refer to our programmable oscillator chapter for fast make products 

210 

## **Electrical Specification - maximum limiting values when measured in HCMOS test circuit** 

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Frequency  Frequency Supply Voltage Supply Current Rise Time(tr) Fall Time (tf) Duty Cycle Model Number<br>Range Stability<br>1.25 to 35.0MHz  15mA 6ns 6ns<br>>35.0 to 70.0MHz ±20ppm, ±25ppm,  30mA 6ns 6ns<br>>70.0 to 106.25MHz ±50ppm, ±100ppm 3.3V 40mA 6ns 6ns CFPS-73,<br>>106.25 to 120.0MHz 40mA 6ns 6ns CFPS-73I<br>>120.0 to 125.0MHz 40mA 6ns 6ns<br>>125.0 to 160MHz 40mA 6ns 6ns<br>40/60%<br>1.25 to 20.0MHz 20mA 6ns 6ns<br>>20.0 to 35.0MHz 30mA 6ns 6ns<br>>35.0 to 70.0MHz ±25ppm, ±50ppm, 5.0V 50mA 6ns 6ns CFPS-72,<br>>70.0 to 100.0MHz ±100ppm 70mA 6ns 6ns CFPS-72I<br>>100.0 to 125.0MHz 70mA 6ns 6ns<br>>125.0 to 160.0MHz 70mA 6ns 6ns<br>Ordering Example 24.0MHz CFPS-73I C<br>Frequency<br>Model No<br>Operating Temperature Code: I = –40 to 85°C; Not applicable for 0 to 70°C<br>Frequency Stability: A = ±25ppm; B = ±50ppm; C = ±100ppm; G = ±20ppm<br>**----- End of picture text -----**<br>


**Please note that the rise and fall times listed are the maximum values we specify to cover various frequency breaks. In practise the actual values are generally lower depending upon the spot frequency chosen. For typical values please contact our sales office.** 

**Test Circuit - TTL** 

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Frequency<br>Test Circuit - HCMOS Counter<br>D 1  to D 4  = IN4148<br>A +Vs FrequencyCounter or equivalent Oscilloscope<br>A +Vs<br>+Vs Oscillator 400R<br>Power 4 3 +Vs Oscillator D1<br>Supply 1 2 Oscilloscope Powe r 4 3<br>V Supply 1 2 D2<br>0.1µF 15pF* 0.1µF<br>V 15pF* D3<br>D4<br>*Inclusive of jigging & equipment capacitance *Inclusive of jigging & equipment capacitance<br>  Note: CFPS-72,  72I only<br>Outline in mm - Reel<br>Outline in mm - Tape<br>2.0<br>∅13.0<br>4.0 ∅1.5 ∅1.6    0.3 ∅21.0<br>  2.15 max<br>   8.0 5.4<br>1.0<br>120° 23.0<br>1.75<br>60±2.0 330.0<br>  7.5 ∅ ∅<br>  16.0 7.9<br>**----- End of picture text -----**<br>


## **Test Circuit - HCMOS** 

## **Outline in mm - Tape** 

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Updated at June 9, 2026

IQD Frequency Products is a recognized market leader in the frequency control and specialized timing sector. Known for delivering highly reliable and precise solutions, the company serves a broad spectrum of applications ranging from commercial-grade electronics to high-reliability industrial and automotive systems. Their commitment to quality is underscored by stringent manufacturing and testing standards, including ISO 9001 and automotive-grade certifications such as AEC-Q200. The comprehensive selection of IQD components focuses primarily on foundational timing devices, notably an extensive range of quartz crystals and standard clock oscillators. These core components provide the stable and accurate frequency generation required for diverse circuit designs, microcontrollers, and communication interfaces. Available in a variety of frequencies, tolerances, and packaging options, these crystals and oscillators form the reliable backbone of countless digital and RF systems. For more demanding environments that require enhanced precision, the portfolio also features specialized oscillator configurations. This includes advanced Temperature Compensated (TCXO) and Voltage Controlled (VC-TCXO) oscillators. These highly engineered timing solutions are designed to maintain exceptional frequency stability across fluctuating temperatures and varying operational conditions, making them ideal for telecommunications, networking infrastructure, and precision instrumentation.

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