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Engineered Solutions
Part Number Description Applications Documents
Pierce Analyzer System (PAS)
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Circuit characterization; providing best possible match between Quartz Crystal, oscillator loop and associated components
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Eliminates probability of oscillator start-up issues related to inadequate design or marginal component performance
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Eliminates production launch issues related to crystal oscillator based timing circuit
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Solves for design margin uncertainty
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Provides customer's oscillator circuit overview in the form of a detailed report, which could be an ideal 3rd party assessment
for the design history file or PPAP documentation. This report encompasses both the stand-alone crystal performance, as well
as in-circuit behavior outlining safety factor as a function of crystal's ESR, etc.
•  
For additional information, please contact Abracon at: tech-support@abracon.com
Abracon provides a detailed test report encompassing:
•  
Stand alone Quartz Crystal characteristics including:
- Motional parameters (Cm, Lm, ESR &Co)
- Narrow Band Frequency Response Plot
- Wide Band Frequency Response PlotoAdmittance versus Suseptance Plot
- Frequency dependence versus load capacitance plot
•  
Oscillator loop
- Initial frequency accuracy and drive level as seen by the crystal with measured ESR
- Worst case projected drive level with maximum specified ESR
- Safety Factor of the oscillator loop under both typical and maximum ESR
- Recommendation on proper component selection (C1, C2 & Rs when applicable) for best compromise with respect to Safety Factor and Frequency accuracy
- Recommendation on the Abracon Crystal part # with proper plating load and other key attributes to enable the most robust design, specific to the µcontroller/processor implemented
View Docs
Pierce Analyzer System (PAS) Advanced Board Characterization Service Support Documents
Description
• Circuit characterization; providing best possible match between Quartz Crystal, oscillator loop and associated components
• Eliminates probability of oscillator start-up issues related to inadequate design or marginal component performance
• Eliminates production launch issues related to crystal oscillator based timing circuit
• Solves for design margin uncertainty
• Provides customer's oscillator circuit overview in the form of a detailed report, which could be an ideal 3rd party assessment for the design history file or PPAP documentation. This report encompasses both the stand-alone crystal performance, as well as in-circuit behavior outlining safety factor as a function of crystal's ESR, etc.
• For additional information, please contact Abracon at: tech-support@abracon.com
Deliverables
Abracon provides a detailed test report encompassing:
• Stand alone Quartz Crystal characteristics including:
- Motional parameters (Cm, Lm, ESR &Co)
- Narrow Band Frequency Response Plot
- Wide Band Frequency Response PlotoAdmittance versus Suseptance Plot
- Frequency dependence versus load capacitance plot
• Oscillator loop
- Initial frequency accuracy and drive level as seen by the crystal with measured ESR
- Worst case projected drive level with maximum specified ESR
- Safety Factor of the oscillator loop under both typical and maximum ESR
- Recommendation on proper component selection (C1, C2 & Rs when applicable) for best compromise with respect to Safety Factor and Frequency accuracy
- Recommendation on the Abracon Crystal part # with proper plating load and other key attributes to enable the most robust design, specific to the controller/processor implemented
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SYNC-10.00MHz
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Stand Alone 10.00MHz Portable Precision Frequency Reference - World Wide Capability
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Built-in Stratum-III stability, 10.00MHz Signal tuned into 50Ω's
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Synchronization circuitry providing dynamic sync capability, enabling Calibration to a known source such as; a GPS Tracked 10.00MHz reference/10.00MHz Rubidium Source/10.00MHz OCXO based reference
•  
Integrated re-chargeable batteries to provide true stand-alone capability in the field
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Once sync'd; guaranteed ±300 ppb stability over 0°C to 60°C
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Pocket Size - 3.50" * 1.50" * 1.00"; machined aluminum durable enclosure
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Accompanied with a Universal AC-DC Charger
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Continuously operable at full charge for 10-hours
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Ideally suited as an in-field Calibrated Precision 10.00MHz reference for trouble shooting or tuning hardware and Base Station related equipment
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Reference source for lab use
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Reference source to drive frequency counters and other timing related hardware or instruments
•  
Precision Portable reference for inspection of in-field wireless transmitters
View Docs
SYNC-10.00MHz Support Documents
Description
•  
Stand Alone 10.00MHz Portable Precision Frequency Reference - World Wide Capability
•  
Built-in Stratum-III stability, 10.00MHz Signal tuned into 50Ω's
•  
Synchronization circuitry providing dynamic sync capability, enabling Calibration to a known source such as; a GPS Tracked 10.00MHz reference/10.00MHz Rubidium Source/10.00MHz OCXO based reference
•  
Integrated re-chargeable batteries to provide true stand-alone capability in the field
•  
Once sync'd; guaranteed ±300 ppb stability over 0°C to 60°C
•  
Pocket Size - 3.50" * 1.50" * 1.00"; machined aluminum durable enclosure
•  
Accompanied with a Universal AC-DC Charger
•  
Continuously operable at full charge for 10-hours
Applications
•  
Ideally suited as an in-field Calibrated Precision 10.00MHz reference for trouble shooting or tuning hardware and Base Station related equipment
•  
Reference source for lab use
•  
Reference source to drive frequency counters and other timing related hardware or instruments
•  
Precision Portable reference for inspection of in-field wireless transmitters
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ABPSM-ULN-A
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AC Adapter Input Voltage 100VAC to 240VAC; 50Hz and 60Hz cycles - World Wide Capability
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Four DC Output Ports, 1.8V, 2.5V 3.3V & 5.0V
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Current Sourcing Capability 200mA max each port
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Exceptional low noise density; < 7nV / vHz @ 1kHz offset Typical
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Better than 0.30uVrms over 0.1Hz to 1kHz bandwidth (best-in-class)
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Convenient, Ultra Low Noise Solution offering most common bias levels
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Portable - Small form factor [3.50" * 1.50" * 0.65"] Machined Aluminum enclosure
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No external heat sinking is required
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Low Cost
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Lab Grade Power Supply designed to replace bulky & noisy power supplies for everyday use
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A must have for Noise Sensitive Measurements such as, S/N ratio, Spectral Purity, Jitter, Phase Noise & Harmonic Distortion
•  
Ideal for testing circuits including:
      - Audio - Medical Diagnostic
      - RF - Jitter Sensitive Digital
      - Microwave
View Docs
ABPSM-ULN-A Support Documents
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AC Adapter Input Voltage 100VAC to 240VAC; 50Hz and 60Hz cycles - World Wide Capability
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Four DC Output Ports, 1.8V, 2.5V 3.3V & 5.0V
•  
Current Sourcing Capability 200mA max each port
•  
Exceptional low noise density; < 7nV / vHz @ 1kHz offset Typical
•  
Better than 0.30uVrms over 0.1Hz to 1kHz bandwidth (best-in-class)
•  
Convenient, Ultra Low Noise Solution offering most common bias levels
•  
Portable - Small form factor [3.50" * 1.50" * 0.65"] Machined Aluminum enclosure
•  
No external heat sinking is required
•  
Low Cost
•  
Lab Grade Power Supply designed to replace bulky & noisy power supplies for everyday use
•  
A must have for Noise Sensitive Measurements such as, S/N ratio, Spectral Purity, Jitter, Phase Noise & Harmonic Distortion
•  
Ideal for testing circuits including:
      - Audio - Medical Diagnostic
      - RF - Jitter Sensitive Digital
      - Microwave
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ABLNO Precision Frequency Divider
Eval Board

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ABLNO-EVAL is a Frequency Divider Evaluation Board designed to facilitate oscillator signal characterization
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Built-in Divider scheme with exceptionally low Additive Jitter to characterize ÷1, ÷2, ÷4 or ÷8 combination of the reference signal
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Contains Standard SMA connectors providing VDD, Vc, RF Output and External Oscillator signal connectivity
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Ideally suited to characterize Phase Noise, jitter, frequency pull & frequency stability over temperature characterization
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Rated for 10MHz to 200MHz frequency range
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With on-board 9x14 mm XO/VCXO lay out, a standard device, such as ABLNO VCXO can be soldered onto the board and fully characterized
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Optional SMA connector port to characterize an external oscillator signal
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Rated for -40°C to +85°C operation enabling frequency stability over temperature characterization of an oscillator device
View Docs
ABLNO Eval Board Support Documents
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ASGTX Eval Board
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ASGTX Evaluation boards are designed to facilitate engineering evaluation of the ASGTX series of high frequency VCTCXO's. These boards are pre-configured to test the ASGTX oscillator with an LVDS output.
 
 
 
• 40G & 100G Ethernet
• WiMax
• LTE, BTS
• CATV, LAN, LMDS
• Point-to-Point communication networks
View Docs
ASGTX Eval Board Support Documents
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AST3TQ Eval Board
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AST3TQ Evaluation boards are designed to facilitate the electrical performance testing of the AST3TQ series of TCXO's and VCTCXO's. Customers simply solder down the AST3TQ device on the provided landpattern and connect +3.3V to the SMA connector marked as "Vdd" and monitor the RF Output at the SMA marked as "Out". For the TCXO version, the "VC" port SMA connector should be left floating. For the VCTCXO version of the AST3TQ devices, this port should be connected to a DC Voltage between 0.00V and +3.30V. Please follow the recommended center voltage value specified in the product data sheet for the device under test (DUT), to be on frequency relative to the carrier.
 
 
 
• COTS Military Radios
• WiMax
• LTE, BTS
• CATV, LAN, LMDS
• GPS Tracking with Hold-Over accuracy
• Test & Measurement Equipment
• Point-to-Point communication networks
View Docs
AST3TQ Eval Board Support Documents
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AFS1410-Eval Board
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AFS1410 Evaluation boards are designed to provide a means to assess the performance of AFS1410 series of SAW Band Pass Filters. The board is designed with a provision for matching components on both input and output ports of the filter.
 
 
 
• Wireless Communication
• Remote Control
• Cellular Phones
View Docs
AFS1410-Eval Board Support Documents
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AFS2016-Eval Board
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AFS2016 Evaluation boards are designed to provide a means to assess the performance of AFS2016 series of SAW Band Pass Filters. The board is designed with a provision for matching components on both input and output ports of the filter.
 
 
 
• Wireless Communication
• Remote Control
• Cellular Phones
View Docs
AFS2016-Eval Board Support Documents
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