Catalog - Abracon

Ultra Miniature
SMD XO & VCXO
ASG2
SMD TCXO/
VCTCXO
ASGTX
Precision
SMD TCXO
AST3TQ
32.768kHz
SMD Low
Profile Crystal
ABS07
Ultra Low Phase Noise Wireless Charging
Coils
XO / VCXO
ABLNO
Chip Antennas
Inductors
Transformers
ACA-104-T
ASPI-0630LR
AITC-449
ABRACON
Product Catalog
AWCCA-107T52
RJ45
ARJ11G
For detail datasheets, please visit: www.abracon.com
Ultra Miniature Ceramic SMD Crystal
ABM2 8.0 x 4.5 x 1.4mm
• Ceramic Glass Sealed • 8.0MHz to 100MHz
The Smallest package size in industry - 1.2x1.0x0.3mm
ABMC2 11.0 x 5.0 x 2.0mm
• Resistance Welded • 3.5MHz to 70MHz
ABLSG 11.4 x 4.7 x 4.2mm
With 3rd lead case-grounded, ideal for EMI shielding
• HC49US, Resistance Welded
• 3.579545 MHz to 75 MHz
 ABLS-LR 11.4 x 4.7 x 4.2mm
Ultra Low ESR low frequency crystal
SMD Crystals
• HC49US, Resistance Welded • 3.0MHz to 36MHz
ABM13 1.2 x 1.0 x 0.3mm
• Ceramic Ultra Miniature Seam Sealed
• 36MHz to 80MHz
ABLS 11.4 x 4.7 x 4.2mm
• HC49US, Resistance Welded
• 3.579545MHz to 75MHz
 ABM12 1.6 x 1.2 x 0.45 mm
• Ceramic Ultra Miniature Seam Sealed
• 24MHz to 80MHz
 ABLS2 11.4 x 4.7 x 3.3mm ←Reduced Height
• HC49US, Resistance Welded
• 3.579545MHz to 70MHz
ABM11 2.0 x 1.6 x 0.59mm
• Ceramic Ultra Miniature Seam Sealed
• 16MHz to 50MHz
ABLS3 11.4 x 4.7 x 2.5/2.6mm ←Reduced Height
• HC49US, Resistance Welded
• 3.579545MHz to 70MHz
 ABM10 2.5 x 2.0 x 0.50mm
• Ceramic Ultra Miniature Seam Sealed
• 16MHz to 55MHz
ABC2 11.5 x 5.5 x 2.0mm ←Reduced Height
• Ceramic Glass Sealed • 3.5MHz to 70MHz
ABSM2 12.5 x 4.6 x 3.7mm
• Molded Plastic • 3.579545MHz to 66.6666MHz
 ABM8 3.2 x 2.5 x 0.8mm
• Ceramic Ultra Miniature Seam Sealed
• 10MHz to 125MHz
ABSM3A 12.5 x 4.95 x 5.1mm
• HC49US, Resistance Welded
• 3.579545MHz to 54MHz
ABM8X 3.2 x 2.5 x 0.6mm
High Stability Seam Sealed • -40°C to +125°C; ±40
ppm all inclusive • 24MHz, 32MHz
 ABM8-166-114.285MHz-T2 3.2 x 2.5 x 0.75mm
for use with SiLab Si5316
• -40°C to +85°C• 114.285MHz
ABSM3B 12.5 x 4.85 x 5.1mm
• HC49US, Resistance Welded
• 3.579545MHz to 60MHz
MHz Thru-Hole Crystals
 ABM8G 3.2 x 2.5 x 1.0mm
• Ceramic Glass Sealed • 12MHz to 50MHz
ABU, ABU5 7.8 x 8.0 x 3.1mm
• UM Type Resistance Welded • 6MHz to 200MHz
ABM9 4.0 x 2.5 x 0.8mm
• Ceramic Seam Sealed • 12MHz to 32MHz
ABL 11.5 x 5.0 x 3.5mm
• HC49US Resistance Welded
• 3.579545MHz to 70MHz
 ABM3 5.0 x 3.2 x 1.3mm
• Ceramic Glass Sealed • 8MHz to 80MHz
Smaller package alternative for ABM7 series.
ABL2 11.5 x 5.0 x 2.5mm
• HC49US Resistance Welded
• 3.579545MHz to 70MHz
 ABM3B 5.0 x 3.2 x 1.1mm
• Ceramic Seam Sealed • 8MHz to 125MHz
ABL3 11.5 x 5.0 x 2.0mm
• HC49US Resistance Welded
• 3.579545MHz to 70MHz
ABM3X 5.0 x 3.2 x 0.9mm
High Stability Crystal • -40°C to +125°C; ±40 ppm
all inclusive • 24MHz, 32MHz
AB 11.5 x 13.46 x 5.0mm/19.33 x 19.80 x 9.0mm
• HC49U/HC51U Resistance Welded
• 1.8432MHz to 160MHz
 ABM3C 5.0 x 3.2 x 1.3mm
• Ceramic Seam Sealed • 10MHz to 50MHz
 ABM7 6.0 x 3.5 x 1.4mm
Ceramic Glass Sealed • 8MHz to 80MHz
 ABMM 7.2 x 5.2 x 1.3mm
• Ceramic Seam Sealed • 6MHz to 125MHz
AB308 8.5 x 3.0mm
• Cylindrical Type • 4MHz to 70MHz
kHz SMD Crystals
ABMM1 7.2 x 5.2 x 1.2mm
• Ceramic Seam Sealed • 6MHz to 125MHz
 ABMM2 6.0 x 3.6 x 1.2mm
• Ceramic Seam Sealed • 7.3728MHz to 110MHz
ABS05 1.6 x 1.0 x 0.5mm Industry smallest package
• Lowest Profile , 32.768kHz
ABS06 2.0 x 1.2 x 0.6mm
• Ultra Low Profile , 32.768kHz
ABS06L 2.0 x 1.2 x 0.38mm
• Lowest Profile , 32.768kHz
ABS06-107 2.0 x 1.2 x 0.60mm
• Ultra Low Profile, 4pF, ESR Optimized,
32.768kHz
2
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
Automotive & Industrial Grade Crystals
 ABS07 3.2 x 1.5 x 0.90mm
• Low Profile , 32.768kHz
ABS07L 3.2 x 1.5 x 0.38mm
• Lowest Profile, Low Height, 32.768kHz
 ABS07-120 3.2 x 1.5 x 0.90mm
• Low Profile, 6pF, ESR Optimized, 32.768kHz
 ABS07AIG 3.2 x 1.5 x 0.8mm
• 32.768 kHz • 2 Pad SMD
 ABS09 4.10 x 1.5 x 0.9mm
• Low Profile , 32.768kHz
*Not recommended for new designs. Please
consider our reduced size ABS07 or ABS06
 ABM11AIG 2.0 x 1.6 x 0.5mm
• 18 to 50 MHz • 4 Pad SMD
 ABM10AIG 2.5 x 2.0 x 0.6mm
• 12 to 62.50 MHz • 4 Pad SMD
 ABS10 4.9 x 1.8 x 1.0mm
• Low Profile , 32.768kHz
*Not recommended for new designs. Please
consider our reduced size ABS07 or ABS06
 ABM8AIG 3.2 x 2.5 x 0.75mm
• 12 to 54 MHz • 4 Pad SMD
 ABS13 6.9 x 1.4 x 1.3mm
• Molded Plastic • 32.768kHz
ABS25 8.0 x 3.8 x 2.5mm
• Molded Plastic • 32.768kHz, 30kHz to 100kHz
 ABM8GAIG 3.2 x 2.5 x 0.8mm
• 10 to 30 MHz • 4 Pad SMD
 ABM3AIG 5.0 x 3.2 x 1.3mm
• 8 to 20 MHz • 2 Pad SMD
 ABM3BAIG 5.0 x 3.2 x 1.0mm
• 12 to 54 MHz • 4 Pad SMD
 AB26TRB 6.0 x ϕ1.9mm
• Cylindrical Type Reflowable • 32.768kHz
 ABM3CAIG 5.0 x 3.2 x 1.3mm
• 8 to 20 MHz • 4 Pad SMD
AB26TRJ 6.0 x 2.5 x 2.1mm
• Cylindrical Type Reflowable • 25kHz to 200kHz
 ABM4AAIG 7.0 x 5.0 x 1.6mm
• 6 to 25 MHz • 2 Pad SMD
 AB26TRQ 5.2 x 1.45 x 1.45mm
• Cylindrical Type Reflowable • 32.768kHz
 ABM4BAIG 7.0 x 5.0 x 1.6mm
• 6 to 25 MHz • 4 Pad SMD
kHz Cylindrical Thru- Hole Crystals
 AB15T 5.0 x ϕ1.4mm
• Cylindrical Type • 32.768kHz
 AB26T 6.2 x ϕ2.1mm
• Cylindrical Type • 32.768kHz, 30kHz to 200kHz
 AB38T 8.3 x ϕ3.2mm
• Cylindrical Type • 32.768kHz
ABS06-107-32.768kHz-T;
Ultra Low ESR; 4pF Plated - Tuning Fork Crystal
ABRACON’s ABS06-107-32.768kHz-T Tuning Fork Crystal is optimized for Power Sensitive Designs, requiring minimal plating load (4pF)
and Ultra Low ESR. With guaranteed maximum ESR of 80kΩ, this device is ideally suited for Ultra Low Power - Real Time Clocking
solutions, requiring exceptionally low power consumption (Reference; ST Micro STM32L1, F2 & F4 µcontrollers).
Applications:
• Power Sensitive, battery operated Consumer Electronics
• PDA and Smartphone
• Communication & measurement equipment
• Commercial & Industrial applications
• Wireless communications
What ABS06-107-32.768kHz-T offers designers?
• 4pF plating load facilitates sustained oscillations with very low oscillator loop
transconductance (gm) < 3µA/V
• Guaranteed maximum ESR of 80kΩ ensures lower overall power consumption & higher Gain
Margin
• Tight Frequency Set Tolerance < ±20 ppm into a 4pF Effective Oscillator Loop Load
• Wide Operating Temperature Range (-40ºC to +85ºC)
• < ±175 ppm typical stability over -40ºC to +85ºC; ±250 ppm guaranteed; referenced to
measured frequency at 25ºC±3ºC
• Developed in close-cooperation with ST Micro for STM32L1, F2 & F4 Reference Designs
• Space saving 2.0x1.2x0.6 mm, RoHS Compliant SMT package
• Low cost, available through Abracon’s Global Distributors
Reference Design:
ABS06-107-32.768kHz-T device is Qualified on the following ST Micro’s Reference Designs STM32F2 , STM32F4 and STM32L1
 Distributor Stocking Item 3
For detail datasheets, please visit: www.abracon.com
ABS07-120-32.768kHz-T ;
Ultra Low ESR; 6pF Plated - Tuning Fork Crystal
ABRACON’s ABS07-120-32.768kHz-T Tuning Fork Crystal is optimized for Power Sensitive Designs, requiring lower plating load and Ultra
Low ESR. With guaranteed maximum ESR of 60kΩ, this device is ideally suited for Ultra Low Power - Real Time Clocking solutions,
requiring exceptionally low power consumption.
Applications:
• Power Sensitive, battery operated Consumer Electronics
• PDA and Smartphone
• Communication & measurement equipment
• Commercial & Industrial applications
• Wireless communications
What ABS07-120-32.768kHz-T offers designers?
• 6pF plating load facilitates sustained oscillations with lower oscillator loop transconductance
(gm) < 5µA/V
• Guaranteed maximum ESR of 60kΩ ensures lower overall power consumption
• Tight Frequency Set Tolerance < ±20 ppm
• Wide Operating Temperature Range (-40ºC to +85ºC)
• Developed in close-cooperation with ST Micro for ST32F4 Reference Design
• Space saving 3.2x1.5x0.9 mm, RoHS Compliant SMT package
• Low cost, available through Abracon’s Global Distributors
Reference Design:
ABS07-120-32.768kHz-T device is Qualified on ST Micro’s Reference Design; STM32F4 MCU solutions.
SMD Ceramic Resonators
AWSCR-CP 6.0 x 3.0 x 1.7mm
• Built-in Capacitance • Low Resonant Impedance
• 4.0MHz to 12.00MHz
 AWSZT-CW 2.5 x 2.0 x 1.2mm
• Low Resonant Impedance • 20MHz to 60MHz
AWSZT-CP 6.0 x 3.0 x 1.7mm
• Low Resonant Impedance • 4.0MHz to 12.00MHz
 AWSCR-CW 2.5 x 2.0 x 1.2mm
• Built-in Capacitance • Low Resonant Impedance
• 20MHz to 60MHz
 AWSZT-MGD 7.4 x 3.4 x 1.8 mm
• Low Resonant Impedance • 2MHz to 8MHz
AWSCR-CE 3.2 x 1.3 x 1.0mm
• Built-in Capacitance • Low Resonant Impedance
• 8MHz to 12MHz
 AWSCR-CV 3.7 x 3.1mm
• Built-in Capacitance • Low Resonant Impedance
• 8MHz to 13MHz, 16MHz to 60MHz Height varies
AWSCR-MGD 7.4 x 3.4 x 1.8mm
• Built-in Capacitance • Low Resonant Impedance
• 1.84MHz to 8MHz
Thru-Hole Ceramic Resonators
per frequency
 AWSZT-CV 3.7 x 3.1 mm
• Low Resonant Impedance • 8MHz to 13MHz,
16MHz to 60MHz Height varies per frequency
AWSZT-CR 4.5 x 2.0 x 1.2mm
• Low Resonant Impedance • 4MHz to 8MHz
AWSCR-CR 4.5 x 2.0 x 1.2mm
• Built-in Capacitance • Low Resonant Impedance
• 4MHz to 8MHz
 AWSCR-MTD 4.7 x 4.1 mm
• Built-in Capacitance • Low Resonant Impedance
• 6MHz to 60MHz Height varies per frequency
 HWZT-MD Dimensions vary per frequency
• Low Resonant Impedance
• 2MHz to 6MHz, 12.51MHz to 60MHz
 HWZT-RS 5.5 x 5.0 x 3.0mm
• Low Resonant Impedance • 6.01MHz to 12.5MHz
 AWCR-MD Dimensions vary per frequency
• Built-in Capacitance • Low Resonant Impedance
• 2MHz to 6MHz, 12.51MHz to 60MHz
 AWCR-RS 5.5 x 5.0 x 3.0mm
• Built-in Capacitance• Low Resonant Impedance
• 6.01MHz to 12.5MHz
AWSZT-MWD 4.7 x 4.1 mm
• Low Resonant Impedance • 6MHz to 13MHz
Height varies per frequency
 AWSZT-MXD 4.7 x 4.1 mm
• Low Resonant Impedance • 13.01MHz to 60MHz
Height varies per frequency
4
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
RTC IC- Ultra Low Power
RTC IC + Oscillator
 AB1815 3.0 x 3.0mm
• SPI • -40 to +85°C • 256B RAM
• On-board Power & VBAT Switch,
RTC consumes <55nA
 AB-RTCMC-32.768kHz-ZIZE-S2
• 5.0 x 3.2 x 1.2 mm • -40 to +85°C • SPI
 AB1805 3.0 x 3.0mm
• I2C • -40 to +85°C • 256B RAM
• On-board Power & VBAT Switch,
RTC consumes <55nA
 AB-RTCMC-32.768kHz-B5ZE-S3
• 3.7 x 2.5 x 0.9 mm • -40 to +85°C • I2C
 AB-RTCMC-32.768kHz-B5GA-S3
• 3.7 x 2.5 x 0.9 mm • -40 to +85°C • I2C
 AB0815 3.0 x 3.0mm
• SPI • -40 to +85°C • 256B RAM
• On-board VBAT Switch, RTC consumes <55nA
 AB-RTCMC-32.768kHz-AIGZ-S7
• 3.2 x 1.5 x 0.8 mm • -40 to +85°C • I2C
 AB0805 3.0 x 3.0mm
• I2C • -40 to +85°C • 256B RAM
• On-board VBAT Switch, RTC consumes <55nA
RTC IC + TCXO
 AB-RTCMK-32768kHz
• 3.2 x 2.5 x 1.0 mm
• +/-5ppm over -40 to +125°C • I2C
 AB-RTCMC-32.768kHz-EOZ9-S3
• 3.7 x 2.5 x 0.9 mm
• +/-30ppm over -40 to +125°C • I2C
 AB-RTCMC-32.768kHz-EOA9-S3
• 3.7 x 2.5 x 0.9 mm
• +/-30ppm over -40 to +125°C • SPI
Real Time Clock Family Product Highlights
SP
Ultra-Low Power Semiconductors. Redefined.
Abracon redefines the meaning of ultra-low power semiconductors by announcing the immediate availability of the world’s lowest power Real Time Clock and Real
Time Clock with Integrated Power Management families. Sub-Threshold Power optimized techonolgy by ambiq micro provides power requirements more than 7X
lower than any other industry RTC (as low as 14nA), these are the first semiconductors based on the innovative SPOTTM (Sub-Threshold Power Optimized
Technology) CMOS platform. This family of full-featured products includes a host of innovative timing and power management features designed to lower overall
system power requirements and decrease product cost.
The AB18x5 product family sets a new standard for RTC devices with a number of innovative timing features combined with groundbreaking ultra-low power
requirements. By combining clock functions and system power management, the AB18x5 family combines the functions of several chips into a single, low cost
solution. The low-cost AB08x5 family contains all of the low power and advanced timing features of the AB18x5 but does not have the power management
capabilities.
Features
Applications
All AB08x5 and AB18x5 devices include the following capabilities:
• Ultra-Low Crystal Mode Supply Current for High Accuracy- 55nA
• RC Oscillator for Extreme Low Power Applications – 14nA
• Autocalibration for Accurate Timekeeping with Very Low Power- 18nA
• Distributed Low Jitter Digital Calibration Enables More Precise Timing
• Extended Crystal Calibration Supports a Wide Range of Crystals
• Advanced Timing Functions - A Superset of Most Legacy RTCs
• Available I2C and SPI Interfaces for System Flexibility
• Sophisticated Battery Management for Compact RTC Backup
Applications
• Optional On-Chip RAM with No Power Penalty
• Low Resistance Power Switch Allows External Component Power
Gating
• Sleep Manager Dramatically Reduces Overall System Power
• Host Reset Manager for Power Control Flexibility
• Battery Operated Devices
• Wireless Sensors
• Smart Cards
• Smart Appliances
• Consumer Electronics
• Data Loggers
• Medical Devices
Part
Number
Baseline Timekeeping
Crystal
Number of
Oscillator GPIO Outputs
AB18x5 RTC + Power Management
Advanced Timekeeping
RC
Calibration/
Watchdog
Oscillator Auto-Calibration
Timer
Power Management
RAM
(Bytes)
VBAT
Switch
AB08x5 RTC
Reset
Management
External
Interrupts
Power Switch & Sleep
Finite State Machine
System
Interface
AB0805
■
4
■
■
■
256
■
■
I2C
AB0815
■
3
■
■
■
256
■
■
SPI
AB1805
■
4
■
■
■
256
■
■
■
■
I2C
AB1815
■
3
■
■
■
256
■
■
■
■
SPI
 Distributor Stocking Item 5
For detail datasheets, please visit: www.abracon.com
MEMS Oscillators
 ASEMDLC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVDS-CMOS dual output, Low
power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc • Plastic QFN
Package • 10 MHz to 170MHz for LVCMOS, 10 MHz
to 460MHz for LVDS
 AB-557-03 3.5 x 2.5 x 0.85mm
PCIe Clock Generator • 2.25 to 3.6Vdc • LVCMOS,
LVDS, LVPECL, HCSL output • 100MHz
 ASDM 2.5 x 2.0 x 0.85mm
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz
 ASEMCLP 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVPECL output, Low power, and
low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10 MHz to 460MHz
 ASDMB 2.5 x 2.0 x 0.85mm Industrial Grade
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz
• 10ppm • -40 to +105°C
ASDMDC 2.5 x 2.0 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable Dual LVCMOS output,
Low power, and low jitter for high speed data
communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 2.3MHz to 170MHz
 ASEMCHC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable HCSL output, Low power, and
low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10 MHz to 460MHz
 ASDMP 2.5 x 2.0 x 0.85mm
Industrial Grade High Performance MEMS Oscillator
• Low power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc
• Plastic QFN Package
• LVPECL/LVDS/HCSL:10MHz to 460MHz
LVCMOS: 10MHz to 170MHz
 ASEMCLV 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVDS output, Low power, and
low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10 MHz to 460MHz
 ASEMDLP 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVPECL Dual output, Low power,
and low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10MHz to 460MHz
 ASEM 3.2 x 2.5 x 0.85mm
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz
 ASEMB 3.2 x 2.5 x 0.85mm Industrial Grade
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz • 10ppm
• -40 to +105°C
 ASEMDLV 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVDS dual output, Low power,
and low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10MHz to 460MHz
 ASEMP 3.2 x 2.5 x 0.85mm
Industrial Grade High Performance MEMS Oscillator
• Low power, and low jitter for high speed data communication • 2.25Vdc to 3.6Vdc • Plastic QFN
Package • LVPECL/LVDS/HCSL:10MHz to 460MHz
LVCMOS: 10MHz to 170MHz
 ASEMDHCC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable HCSL-CMOS dual output, Low
power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc • Plastic QFN
Package • 10MHz to 170MHz for LVCMOS, 10MHz
to 460MHz for HCSL
 ASEMCC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVCMOS output, Low power, and
low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10MHz to 170MHz
 ASEMDHLP 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable HCSL-LVPECL dual output, Low
power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc
• Plastic QFN Package • 10 MHz to 460MHz
 ASEMDC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable Dual LVCMOS output, Low
power, and low jitter for high speed data
communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10MHz to 170MHz
 ASEMDHLV 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable HCSL-LVDS dual output, Low
power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc
• Plastic QFN Package • 10 MHz to 460MHz
 ASEMDHC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable dual HCSL output, Low power,
and low jitter for high speed data communication
• 2.25Vdc to 3.6Vdc • Plastic QFN Package
• 10MHz to 460MHz
6
 ASEMDLPC 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVPECL-CMOS dual output, Low
power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc • Plastic QFN
package • 10 MHz to 170MHz for LVCMOS,
10 MHz to 460MHz LVPECL
6
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
 ASEMDLVP 3.2 x 2.5 x 0.85mm
Industrial Grade 3G MEMS Oscillator
• Pin Configurable LVDS-LVPECL dual output,
Low power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc
• Plastic QFN Package • 10 MHz to 460MHz
ASE6 • 3.2 x 2.5 x 1.2mm Low Voltage
• 1.0Vdc • LVCMOS • 1MHz to 50MHz
ASFLT • 5.0 x 3.2 x 1.05mm
Precision Crystal Oscillator • 2.5 to 3.3 Vdc
• LVCMOS • Industrial grade tight temperature
stability • 4MHz to 54MHz • Temp. Stability +/10ppm from -40 to +85°C
 ASFLM 5.0 x 3.2 x 0.85mm
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz
ASF1 • 5.0 x 3.2 x 1.1mm
• 5.0Vdc • TTL/HCMOS • 0.321MHz to 125MHz
 ASFLMB 5.0 x 3.2 x 0.85mm Industrial Grade
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz • 10ppm
• -40 to +105°C
 ASFL1 • 5.0 x 3.2 x 1.3mm
• 3.3Vdc • TTL/LVCMOS • 0.321 MHz to133.33 MHz
ASFL2 • 5.0 x 3.2 x 1.4mm
• 2.5Vdc • TTL/LVCMOS • 0.321 MHz to 125 MHz
 ASFLMP 5.0 x 3.2 x 0.85mm
Industrial Grade High Performance MEMS Oscillator
• Low power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc
• Plastic QFN Package • LVPECL/LVDS
HCSL:10MHz to 460MHz LVCMOS: 10MHz to 170MHz
 ASFL3 5.0 x 3.2 x 1.1mm
• 1.8Vdc • LVCMOS • 0.5MHz to 125MHz
 ASV 7.0 x 5.0 x 1.8mm
• 3.3Vdc, 2.5Vdc, and 1.8Vdc • TTL/LVCMOS
• 0.312MHz to 200MHz
 ASVM 7.0 x 5.0 x 0.85mm
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz
ASV1 7.0 x 5.0 x 1.6mm • 3.3Vdc, 2.5Vdc, and
1.8Vdc • LVCMOS/ TTL • 0.5MHz to 200MHz
ASV2 7.0 x 5.0 x 1.4mm • 3.3Vdc, 2.5Vdc, and
1.8Vdc • LVCMOS/ TTL • 0.5MHz to 133MHz
 ASVMB 7.0 x 5.0 x 0.85mm Industrial Grade
• 1.8Vdc to 3.3Vdc • Plastic QFN Package
• LVCMOS output • 1.0MHz to 150MHz • 10ppm
• -40 to +105°C
ASL 7.0 x 5.08 x 1.8mm
• 5Vdc • HCMOS/TTL • 1MHz to 125MHz
 ASVMP 5.0 x 3.2 x 0.85mm
Industrial Grade High Performance MEMS Oscillator
• Low power, and low jitter for high speed data
communication • 2.25Vdc to 3.6Vdc • Plastic QFN
Package • LVPECL/LVDS/HCSL:10MHz to 460MHz
LVCMOS: 10MHz to 170MHz
ASL1 7.0 x 5.08 x 1.4mm
• 5Vdc • HCMOS/TTL • 1MHz to 125MHz
ABFM 7.0 x 5.0 x 1.8mm Low Phase Noise & Jitter
• 3.3 or 2.5Vdc • LVPECL, LVDS, LVCMOS
• 30MHz to 280MHz
SMD Crystal Oscillators
ALD 7.0 x 5.0 x 2.0mm Low Phase Noise & Jitter
• 3.3 or 2.5Vdc • 0.75MHz to 800MHz
• LVPECL, LVDS, LVCMOS
 ASCO 1.6 x 1.2 x 0.7mm
• 1.8, 2.5, 3.3Vdc, LVCMOS • 1.0MHz to 80MHz
ABNM 7.0 x 5.0 x 1.8mm • 3.3, 2.5Vdc
• LVCMOS, LVDS, LVPECL • 1 to 160MHz
 ASA, ASA1, ASA2 2.0 x 1.6 x 0.7mm
• 3.3, 2.5, or 1.8Vdc • LVCMOS • 1MHz to 80MHz
32.768kHz SMD Crystal Oscillators
 ASD, ASD1, ASD2, ASD3, ASD6
• 2.5 x 2.0 x 1.0mm • 3.3, 3.0, 2.5 or 1.8Vdc
• LVCMOS • 0.75MHz to 60MHz
 ASDK 2.5 x 2.0 x 0.95mm
• 1.8Vdc, 2.5Vdc, 3.3Vdc • LVCMOS • 32.768kHz
• Low current 2.2mA [email protected]
ASET 3.2 x 2.5 x 1.2mm
Precision Crystal Oscillator • 2.5 to 3.3 Vdc
• LVCMOS , Industrial grade tight temperature
stability • 4MHz to 54MHz
• Temp. Stability +/- 10ppm from -40 to +85°C
 ASH7KW 3.2 x 1.5 x 1.0mm Tuning Fork Crystal
• 1.2 to 5.5Vdc • LVCMOS • 32.768kHz • -40 to +125°C
 ASH7K 3.2 x 1.5 x 1.0mm Tuning Fork Crystal
• 1.5Vdc to 3.6Vdc • 32.768kHz
• Low Current Consumption (0.7uA Max)
 ASE • 3.2 x 2.5 x 1.2mm
• 3.3Vdc • LVCMOS • 0.625MHz to 200MHz
 ASHEK 3.2 x 2.5 x 0.9mm Tuning Fork Crystal
• Ultra low uA current consumption with LVCMOS
output • 32.768kHz • 1.5μA max @3.3Vdc
 ASE2 • 3.2 x 2.5 x 1.2mm
• 2.5Vdc • LVCMOS • 0.625MHz to 166MHz
 ASEK 3.2 x 2.5 x 1.2mm
• 1.8Vdc, 2.5Vdc, 3.3Vdc • LVCMOS • 32.768kHz
• Low current 1.7mA typical @3.3Vdc
 ASE3 • 3.2 x 2.5 x 1.2mm
• 1.8Vdc • LVCMOS • 0.625MHz - 133MHz
 ASFLK 5.0 x 3.2 x 1.3mm • 2.5Vdc, 3.0Vdc,
3.3Vdc, 5.0Vdc • 32.768kHz • Low current 0.5mA
[email protected] ~ 3.0Vdc, 1.5mA typ @5.0Vdc • LVCMOS
ASE4 • 3.2 x 2.5 x 1.2mm
• 1.5Vdc • LVCMOS • 1MHz to 50MHz
ASE5 • 3.2 x 2.5 x 1.2mm
• 1.35Vdc • LVCMOS • 1MHz to 50MHz
 ASVK 7.0 x 5.0 x 1.8mm
• 2.8Vdc, 3.0Vdc, 3.3Vdc
• 32.768kHz Supply current 7.0mA max • LVCMOS
7
 Distributor Stocking Item 7
For detail datasheets, please visit: www.abracon.com
SMD Programmable Crystal Oscillators
SMD TCXO/VCTCXO
 AP2S 2.5 x 2.0 x 0.9mm
• 1.8, 2.5, 3.3Vdc, • 1.0MHz to 200MHz • LVCMOS
• Low jitter PLL technology
 ASGTX 9.0 x 7.0 x 2.24mm
• LVCMOS, LVPECL, LVDS • 3.3V
• 10MHz to 1500MHz
 AP3S 3.2 x 2.5 x 1.2mm
• 1.8, 2.5, 3.3Vdc • 1MHz - 200MHz • LVCMOS
• Low jitter PLL technology
 ASTX-13, ASVTX-13 2.0 x 1.6 x 0.8mm
• Clipped Sine • Seam Sealed SMD • 1.8, 2.8, 3.0Vdc
• 13MHz to 52MHz
 AP5S 5.0 x 3.2 x 1.2mm
• 2.5, 3.3Vdc • 10MHz to 200MHz • LVCMOS
• Low jitter PLL technology
 ASTX-12, ASVTX-12 2.5 x 2.0 x 0.9mm
• Clipped Sine • Seam Sealed SMD
• 1.8 2.5, 2.8, 3.0Vdc • 13MHz to 52MHz
 ASSFLP 5.0 x 3.2 x 1.3mm
•2.5, 3.3Vdc • 8MHz to 160MHz • LVCMOS
• Low EMI
Solves EMI Compliance with low cost Systemic Solution
 ASTX-H12 2.5 x 2.0 x 0.9mm
• LVCMOS • Seam Sealed SMD • 3.3, 2.8, 2.5Vdc
• 0.675kHz to 55MHz
 ASTX-H11 3.2 x 2.5 x 1.0mm
• LVCMOS • Seam Sealed SMD • 2.5, 2.8, 3.3Vdc
• 0.675MHz to 55MHz
 AP7S 7.0 x 5.0 x 1.6mm
• 2.5, 3.3Vdc • 10MHz to 200MHz • LVCMOS
• Low jitter PLL technology
 ASTX-11, ASVTX-11 3.2 x 2.5 x 0.9mm
• Clipped Sine • Seam Sealed SMD
• 2.5, 2.8, 3.0, 3.3Vdc • 10MHz to 40MHz
 ASSVP 7.0 x 5.0 x 1.4mm
•2.5, 3.3Vdc • 10MHz to 160MHz • LVCMOS
• Low EMI
Solves EMI Compliance with low cost Systemic Solution
 ASTX-09, ASVTX-09 5.0 x 3.2 x 1.5mm
• Clipped Sine • Seam Sealed SMD
• 2.5, 3.0, 3.3, 5.0Vdc • 6 MHz to 45MHz
SMD Low EMI Oscillators (Integrated
Spread Spectrum reduces EMI up to 20dB!)
ASTX-H09 5.0 x 3.2 x 1.2mm
• LVCMOS • Seam Sealed SMD • 3.0, 3.3Vdc
• 5MHz to 50MHz
ASSFL 5.0 x 3.2 x 1.2mm
• 3.3Vdc • LVCMOS • 6MHz to 160MHz
Drop in replacement for 5 x 3.2mm XO’s
ASTX-01H 11.4 x 9.6 x 4.0mm
• TTL/CMOS • 5.0Vdc • 2MHz to 30MHz
ASSVJ 7.0 x 5.0 x 1.8mm Reduced Jitter Design
• 3.3Vdc • LVCMOS •13 MHz to 200MHz
Drop in replacement for 7 x 5mm XO’s
ASTX-01HA 11.4 x 9.6 x 4.0mm
• TTL/CMOS • 3.3Vdc • 2MHz to 30MHz
ASSV 7.0 x 5.0 x 1.8mm
• 3.3Vdc • LVCMOS • 5MHz to 160MHz
Drop in replacement for 7 x 5mm XO’s
Automotive & Industrial Grade Oscillators
ASSL1, ASSV1 7.43 x 5.34 x 2.6mm
• 3.3, 5.0Vdc • CMOS • 8MHz to 128MHz
7 x 5mm XO drop in replacement
ASH7KAIG 3.2 x 1.5 x 1.0 mm
• 32.768 kHz • 1.5 to 3.6Vdc • LVCMOS • 4 Pad
SMD
ASSM, ASSML 14.27 x 10.7 x 5.0mm
• 3.3, 5.0Vdc • CMOS • 4MHz to 128MHz
SMD Plastic XO drop in replacement
ASAAIG 2.0 x 1.6 x 0.8 mm
• 4.0 to 50 MHz • 3.3Vdc, 2.5Vdc, 1.8Vdc
• LVCMOS • 4 Pad SMD
ASDAIG 2.5 x 2.0 x 0.95 mm
• 20 to 48 MHz • 3.3Vdc, 3.0Vdc, 2.5Vdc, 1.8Vdc
• LVCMOS • 4 Pad SMD
Thru-Hole TCXO/VCTCXO
ACTX1018(A), ACVTX1018(A) 18.3 x 12.0 x 8.0mm
• DIP, TTL/CMOS, 3.3Vdc or 5Vdc • 0.01MHz to
200MHz (3.3V), 0.01MHz to 160MHz (5V)
ASEAIG 3.2 x 2.5 x 1.2 mm
• 1.75 to 60 MHz • 3.3Vdc, 3.0Vdc, 2.5Vdc, 1.8Vdc
• LVCMOS • 4 Pad SMD
ACTX1018S(A), ACVTX1018S(A)18.3 x 12.0 x 8.0mm
• DIP, Clipped, Sine Wave, 3.3Vdc or 5Vdc
• 8MHz to 61.44MHz
ASVTXAIG-12/ASTXAIG-12 2.5 x 2.0 x 0.9mm
• 13 to 52 MHz • 3.0Vdc, 2.8Vdc • Clipped Sine Wave
• 6 Pad SMD
ACVX1220 20.2 x 12.6 x 8.0mm
• Full-size DIP, 5Vdc, CMOS/TTL
• 1MHz to 160MHz
ASVTXAIG-13/ASTXAIG-13 2.0 x 1.6 x 0.8mm
• 13 to 52 MHz • 3.0Vdc, 2.8Vdc, 1.8Vdc
• Clipped Sine Wave • 4 Pad SMD
ACVX1220L 20.8 x 13.2 x 5.03mm
• Full-size DIP, 3.3Vdc, LVCMOS/TTL
• 1MHz to 120MHz
ACVX1222 20.8 x 13.2 x 5.08mm
• Full-size DIP, 3.3Vdc, LVCMOS/TTL
• 1MHz to 200MHz
ACVX1240 20.8 x 13.2 x 6.8mm
• Full-size DIP, 5Vdc, Sinewave output
• 8MHz to 200MHz
8
8
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
TCXO’s: Custom Frequencies 10MHz ~ 1.50GHz Shipped in 1~5 Days!
High Frequency; Fixed & Voltage Controlled TCXO’s; ASGTX Series
ABRACON’s ASGTX series offers a High Frequency Fixed Clock TCXO or Voltage Controlled (VC)TCXO in a small profile
9x7x2.24 mm SMT package. These devices are factory configurable to any desired frequency from 10MHz to 250MHz with
LVCMOS Output and 10MHz to 1.50GHz with LVDS or LVPECL Output.
With standard default temperature stability of ±1.00 ppm over -30ºC to +70ºC and ±2.00 ppm over -40ºC to +85ºC; this series fulfils
Any Frequency Timing need up to 1.50GHz. Further, factory configurable mechanism shortens the lead-time to 1~5 business days
ASGTX– High Frequency TCXO/VCTCXO… tight stability, economical…1~5 days lead-time
Applications:
What ASGTX series offers designers?
• Any Frequency from 10MHz to 250MHz: LVCMOS
• Any Frequency from 10MHz to 1.50GHz: LVDS/LVPECL
• Wide Operating Temperature Range (-40ºC to +85ºC)
• ±1.00 ppm over -30ºC to +70ºC and ±2.00 ppm over
-40ºC to +85ºC stability
• ±10 ppm Max. All inclusive Stability (including Aging) over
10-years
• ±10 ppm Minimum Frequency Pull ability in VCTCXO mode
• 1ps typical rms jitter with 1.80ps maximum @ 1.5GHz
carrier
• +3.3V (±5%) operating Voltage
• 9.0 x 7.0 x 2.24 mm RoHS Compliant SMT package
• Satellite Modem Communications Systems
• COTS – Military Communication Circuitry
• WiMax
• LTE, BTS
• CATV, LAN, LMDS
• Test & Measurement Equipment
• Avionics
• A/D and D/A Converters
• DDS based architecture
• Phase Locked Loops
• Point-to-Point Communication Networks
Frequency Stability Vs. Temperature (LVDS Output)
Typical Noise @ 1.00GHz Carrier
Frequency Pull Vs. Control Voltage (LVDS Output)
1ps rms jitter @
1.00GHz carrier
9
 Distributor Stocking Item 9
For detail datasheets, please visit: www.abracon.com
SMD VCXO’s
ASLV 7.0 x 5.0 x 1.6mm
• 5Vdc, TTL/CMOS • 1MHz to 155.52MHz
ASEV 3.2 x 2.5 x 1.2mm
• 1.8, 2.5, 2.8, 3.3Vdc • LVCMOS • 1.5MHz to
54MHz
 ASVV 7.0 x 5.0 x 1.6mm
• 3.3Vdc, TTL/LVCMOS • 1MHz to 200MHz
ASFV 5.0 x 3.2 x 1.2mm
• 5Vdc, HCMOS • 1.5MHz to 50MHz
ALVD 7.0 x 5.0 x 1.8mm
• 3.3Vdc • LVPECL, LVDS, LVCMOS
• 0.75MHz to 800MHz
ASFLV 5.0 x 3.2 x 1.2mm
• 3.3Vdc, LVCMOS • 1.0MHz to 50MHz
ABLJO 14.3 x 8.7 x 5.50mm
Ultra-Low Jitter XO/VCXO
• 3.3Vdc • LVCMOS • 80MHz to 200MHz
• 100 fs rms Max jitter
ASG-C 7.0 x 5.0 x 1.9mm
• 2.5, 3.3Vdc • LVCMOS • 10MHz to 250MHz
ASG-D 7.0 x 5.0 x 1.9mm
• 2.5, 3.3Vdc • LVDS • 10MHz to 1.5GHz
ABLNO 14.3 x 8.7 x 5.50mm
Ultra Low Phase Noise XO/VCXO
• 3.3Vdc • LVCMOS • 50MHz to 156.25MHz
• -165dBc/Hz Floor
ASG-P 7.0 x 5.0 x 1.9mm
• 2.5, 3.3Vdc • LVPECL • 10MHz to 1.5GHz
ASG2-C 2.5 x 2.0 x 1.0mm
• 2.5, 3.3Vdc • LVCMOS • 8MHz to 200MHz
ASG2-D 2.5 x 2.0 x 1.0mm
• 2.5, 3.3Vdc • LVDS • 8MHz to 1.5GHz
ASG2-P 2.5 x 2.0 x 1.0mm
• 2.5, 3.3Vdc • LVPECL • 8MHz to 1.5GHz
ASG2 Series
Ultra-Low Phase Noise; Fixed & Voltage
Controlled Crystal Oscillators
ASG2 series is Miniature High Frequency - Precision Crystal
Oscillators and VCXOs. It is introduced to meet the trend towards
shorter lead times and suppliers' ability to offer low jitter - fixed or
voltage controllable oscillators at high carrier frequencies, offering
LVCMOS or Differential Output. Its a factory configurable surface
mount oscillator capable of outputting any desired frequency
between 8MHz and 1.5GHz in a 2.5 x 2.0 x 1.0 mm Ceramic SMT
Package.
The ASG2 series is designed to offer exceptional, all-inclusive
frequency stability of < ±50 ppm (tolerance, stability over
temperature and aging) over a 15-year product life. Utilizing
innovative architecture, this solution features exceptional Phase
Noise characteristics at high carrier frequencies.
ABRACON’s ABLNO series offers an Ultra-Low Phase Noise Fixed
Clock Oscillator (XO) and Voltage Controlled Crystal Oscillator
(VCXO’s), in industry standard 9x14mm package. These devices are
designed with High “Q”, 3rd Overtone AT-Cut Quartz Blanks,
enabling exceptionally clean, close-to-the-carrier phase noise. With
75fs maximum rms jitter over 12 kHz to 20MHz Bandwidth, ABLNO
offers best-in-class jitter performance at an economical price point.
Key features:
• LVCMOS, LVDS or LVPECL output option
• +2.5V or +3.3V operation
• -40°C to +85°C standard operating temperature range
• Miniature size 2.5 x 2.0 x 1.0 mm Ceramic SMT Package
• Short lead times
Applications:
• Networking
• SONET/SDH
• WiMax / WLAN
• Computing
• Phase Locked Loops
• Direct Digital Synthesis (DDS)
• DSL/ADSL
• Base Terminal Stations
ABLNO Series
2.5 x 2.0 x 1.0mm Ultra Miniature
8MHz-1.5GHz Configurable; SMD XO & VCXO
10
Key Features:
• Ultra-Low Phase Noise & Exceptionally low rms jitter; 100%
tested at room temperature
• Can be used as a Platform Device followed by a simple division
scheme to generate ÷2 & ÷4 frequencies. For instance, 100MHz
ABLNO can be utilized to generate 100MHz, 50MHz & 25MHz
on-board references
• Abracon is also offering an Evaluation Board to assist design
engineers in evaluating ÷1, ÷2, ÷4 & ÷8 frequencies
• Industry leading frequency stability over temperature, without
temperature compensation
• Linear & Monotonic Frequency Pull
• Exceptional long-term Aging
• Guaranteed ALL Inclusive Frequency Stability of ±28 ppm over
10-year product life
Applications:
• Satellite Modem Communication Systems
• COTS - Military communications
• Low Phase Noise Signal Sources
• High Definition TV
• Test & Measurement
• Ultra-Low Jitter RF Communication Circuitry
10
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
SMD MCF's
SAW Filters
SAWFORFilters
A COMPLETE LISTING OF OUR SAW FILTERS
AFS14A34-1588.66-T3 1.4 x 1.1 x 0.7mm
• 1588.66MHz; 34.47MHz BW
• Saw Band Pass Filter
ASCF21U Series 7.2 x 5.2 x 1.5mm
21.4MHz • Seam sealed • Fundamental
GO TO WWW.ABRACON.COM
For a Complete listing or our SAW Filters Go to www.abracon.com
E
F11
5.0 x 5.0 x 1.5mm
11.3 x 3.5 x 4.8mm
TO-39/3A
Thru-Hole MCF's
ACF10M Series 10.4 x H x 3.9mm
10.7MHz • Fundamental
AFS14A35-1902.00-T3 1.4 x 1.1 x 0.7mm
• 1902.0MHz; 35MHz BW• Saw Band Pass Filter
TO-39/3B
ACF21U Series 7.8 x 8.0 x 3.1mm
21.4MHz • Fundamental
AFS14A40-1900.00-T3 1.4 x 1.1 x 0.7mm
• 1900.0MHz; 40MHz BW• Saw Band Pass Filter
9.5 x 3.5mm
9.5 x 3.3mm
S3
S4
3.8 x 3.8 x 1.5mm
3.0 x 3.0 x 1.5mm
S6
S9
2.0 x 1.6 x 0.9mm
19.0 x 6.5 x 2.0mm
AFS14A35-1591.50-T3 1.4 x 1.1 x 0.7mm
• 1591.5MHz; 35MHz BW• Saw Band Pass Filter
ACF45U Series 7.8 x 6.0 x 3.1mm
45MHz • Fundamental
Dielectric Band Pass Filters
AFS14A15-2017.50-T3 1.4 x 1.1 x 0.7mm
• 2017.5MHz; 15MHz BW• Saw Band Pass Filter
AFS14A30-2185.00-T3 1.4 x 1.1 x 0.7mm
• 2185.0MHz; 30MHz BW• Saw Band Pass Filter
ADFC43 4.5 x 3.2 x 1.5mm
1200, 1527, 1900MHz • Planar Design
• Band Pass Filter
AFS14A72-2436.00-T3 1.4 x 1.1 x 0.7mm
• 2436.0MHz; 72MHz BW• Saw Band Pass Filter
ADFC32 3.2 x 2.5 x 1.5mm
205.5, 1890, 1906.5, 2450MHz • Planar Design
• Band Pass Filter
SAW Based Miniature - Band Pass Filters
AFS20A05-719.00-T3 2.0 x 1.6 x 0.9mm
• 719MHz; 5MHz BW • Saw Band Pass Filter
Ceramic Filters
AFS14A04-1575.42-T3 1.4 x 1.1 x 0.7mm
• 1575.42MHz; 4MHz BW • Saw Band Pass Filter
ADFC23 9.4 x 5.8 x 2.2mm
1890, 1906.5MHz • Planar Design • Band Pass Filter
Dielectric Low Pass Filters
ADFC13 3.2 x 1.6 x 1.2mm
1906.5, 2450MHz • Planar Design • Band Pass Filter
ALFC32-1200 3.2 x 2.5 x 1.5mm
• Multi-Layer 1200MHz • Low-Pass Filter
AFC10.7 7.0 x 7.0 x 4.0mm
10.7MHz
AFS20A26-915.00-T3 2.0 x 1.6 x 0.9mm
• 915MHz; 26MHz BW • Saw Band Pass Filter
ADFC22 2.5 x 2.0 x 1.2mm
1906.5, 2450MHz • Planar Design • Band Pass Filter
ALFC21-2450 2.0 x 1.25 x 0.9mm
• Multi-Layer 2450MHz • Low-Pass Filter
ASFC10.7M 7.0 x 3.0 x 1.5mm
10.7MHz
ADFC21 Dielectric
2.0 x 1.25 x 0.95mmBalun Filter
AFS20A20-1227.60-T3 2.0 x 1.6 x 0.9mm
2450, 5510, 5800MHz • Planar Design
• 1227.6MHz; 20MHz BW • Saw Band Pass Filter • Band Pass Filter
ADBLF21-2450.00-A-T 2.0 x 1.25 x 1.0mm
• 2450MHz Dielectric Balun Filter
AFC4.5M 9.0 x 7.0 x 4.0 mm
4.5MHz
AFS20A02-1575.42-T3 2.0 x 1.6 x 0.9mm
• 1575.42MHz; 2MHz BW • Saw Band Pass Filter
ABRACON - FILTERS
Dielectric Band Pass Filters
T: 949.546.8000 | www.abracon.com | Page 7
ADFC32 3.2 x 2.5 x 1.5mm
• 1890, 2450MHz • Planar Design
• Band Pass Filter
AFS20A42-1575.42-T3 2.0 x 1.6 x 0.9mm
• 1575.42MHz; 42MHz BW • Saw Band Pass Filter
ADFC21 2.0 x 1.25 x 0.95mm
• 2450, 5390, 5800MHz • Planar Design • Band Pass
Filter
AFS20A53-1575.42-T3 2.0 x 1.6 x 0.9mm
• 1575.42MHz; 53MHz BW • Saw Band Pass Filter
AFS20A05-1672.50-T3 2.0 x 1.6 x 0.9mm
• 1672.5MHz; 5MHz BW • Saw Band Pass Filter
Ceramic Filters
AFC10.7 7.0 x 7.0 x 4.0mm • 10.7MHz
AFS20A20-1910.00-T3 2.0 x 1.6 x 0.9mm
• 1910MHz; 20MHz BW • Saw Band Pass Filter
ASFC10.7M 7.0 x 3.0 x 1.5mm • 10.7MHz
AFS20A15-2017.50-T3 2.0 x 1.6 x 0.9mm
• 2017.5MHz; 15MHz BW • Saw Band Pass Filter
AFS14A11-722.00-T3 1.4 x 1.1 x 0.7mm
• 722MHz; 11MHz BW • Saw Band Pass Filter
AFC4.5M 9.0 x 7.0 x 4.0 mm • 4.5MHz
Monolithic Crystal Filters
ACF21U Series 7.8 x 8.0 x 3.1mm
• 21.4MHz • Fundamental
AFS14A26-915.00-T3 1.4 x 1.1 x 0.7mm
• 915MHz; 26MHz BW • Saw Band Pass Filter
ACF45U Series 7.8 x 8.0 x 3.1mm
• 45MHz • Fundamental
11
 Distributor Stocking Item 11
For detail datasheets, please visit: www.abracon.com
OCXO
 AOCJY4 36.1 x 27.2 x 13mm
• 10MHz to 40MHz; ±2 ppb over 0ºC to +50ºC
• 10MHz to 40MHz; ±10 ppb over -20ºC to +70ºC
• 10MHz to 40MHz; ±10 ppb over -40ºC to +75ºC
• -140 dBc/Hz Phase Noise @ 100Hz offset from 10MHz
Ultra-Low Phase Noise Oven Controlled Crystal Oscillator
 AOCJY5 36.1 x 27.2 x 13mm
• 10MHz; ±50 ppb over -55ºC to +85ºC
• -145 dBc/Hz Phase Noise @ 1kHz offset from 10MHz
 AOCJY6 51 x 41 x 25mm
• 10MHz; ±0.10 ppb over -20ºC to +70ºC
• 10MHz; ±0.20 ppb over -20ºC to +70ºC
• 10MHz; ±0.50 ppb over -20ºC to +70ºC
• -145 dBc/Hz Phase Noise @ 1kHz offset from 10MHz
 AOCJY7 25.4 x 25.4 x 12.7mm
• 100MHz; ±50 ppb over -20ºC to +70ºC
• -174 dBc/Hz Max. Phase Noise @ 10kHz offset
from 100MHz
AOCJY7 Series - 25.4 x 25.4 x 12.7 mm Leaded
• Exceptional Close to the carrier Maximum Phase Noise of
Stratum III
-160dBc/Hz @ 1kHz & -174dBc/Hz @ 10kHz offset
AST3 7.0 x 5.0 x 2.0mm
• 10 to 26MHz • 3.3, 5.0Vdc • LVCMOS
±280ppb over -20 to +70°C
±370ppb over -40 to +85°C
from 100.0 MHz Carrier
• SC-Cut, High “Q” resonator based design
AST3TQ 7.0 x 5.0 x 1.90mm
• 10 to 40MHz • 3.3Vdc • LVCMOS
±100ppb over -40 to +85°C
±280ppb over -50 to +90°C
±500ppb over -55 to +95°C
• 100.0MHz carrier frequency
• Excellent Frequency Stability of ±50.0 ppb over the
operating temperature range of -20ºC to +70ºC
• Tuned Sinewave output into a 50Ω load
• Industry Standard, 25.4x25.4x12.7 mm, RoHS compliant
AST3TQ Series
& Pb free package
TCXO with -55 to +95°C Operating
Temperature in a 5 x 7mm footprint !
OCXO- SMD
ABRACON’s AST3TQ series offers Wide Operating Temperature, Precision Fixed Clock TCXO’s in a small profile
5x7x1.9 mm SMT package. These devices are available from
10MHz to 40MHz carrier frequencies with LVCMOS output;
offering ±500 ppb frequency stability over -55ºC to +95ºC
operating temperature.
 AOCJY 25.4 x 22 x 12.7mm
• 10MHz to 100MHz; ±5 ppb over 0ºC to +50ºC
• 10MHz to 100MHz; ±10 ppb over -20ºC to +70ºC
• 10MHz to 100MHz; ±30 ppb over -40ºC to +75ºC
• -135 dBc/Hz Phase Noise @ 100Hz offset from 10MHz
 AOCJYR 9.7 x 7.5 x 4.3mm
• 5MHz to 50MHz; ±20ppb ~ ±100ppb
over -40 to 85°C
• -142dBc/Hz typ. Phase Noise @ 1kHz offset from
10MHz
Features:
• Industry standard, RoHS-Reflow Compliant,
5 x 7 x 1.9mm Hermetic Package
• Standard available frequencies: 10.00, 12.80, 19.20,
20.00, 25.00, 26.00, 30.72, 38.40 & 40.00MHz
• LVCMOS Output
• Frequency stabilities to include ±100ppb over -40ºC to
+85ºC, ±280ppb over -50ºC to +90ºC and ±500ppb
over -55ºC to +95ºC operating temperature range
• Excellent Phase Noise, Harmonics and Spurious
content
• Typical rms jitter of 400fs @ 40MHz carrier & 1.0ps @
10MHz carrier
OCXO- Thru Hole
 AOCJY1 20.8 x 13.2 x 7.8mm
• 10MHz to 100MHz; ±50 ppb over 0ºC to +50ºC
• 10MHz to 100MHz; ±200 ppb over -20ºC to +70ºC
• 10MHz to 100MHz; ±500 ppb over -40ºC to +75ºC
• -145 dBc/Hz Phase Noise @ 1kHz offset from 10MHz
 AOCJY2 21 x 21 x 11mm
• 10MHz to 100MHz; ±5 ppb over 0ºC to +50ºC
• 10MHz to 100MHz; ±10 ppb over -20ºC to +70ºC
• 10MHz to 100MHz; ±30 ppb over -40ºC to +75ºC
• -140 dBc/Hz Phase Noise @ 100Hz offset from 10MHz
Applications:
• COTS – Military Communication Circuitry
• WiMax
• LTE, BTS
• CATV, LAN, LMDS
• GPS Tracking with Hold-Over Accuracy
 AOCJY3 25.4 x 25.4 x 13mm
• 10MHz to 100MHz; ±5 ppb over 0ºC to +50ºC
• 10MHz to 100MHz; ±10 ppb over -20ºC to +70ºC
• 10MHz to 100MHz; ±30 ppb over -40ºC to +75ºC
• -140 dBc/Hz Phase Noise @ 100Hz offset from 10MHz
12
12
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
Bluetooth Modules
APAE1575R2540AADBE-T 25.0 x 25.0 x 4.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
ABBTM-2.4GHz-31-T 20.0 x 13.0 x 2.0mm
• Bluetooth Spec v1.2 (class 2) • UART • 1.8V, 3.3V
• HSP, HFP, A2DP, AVRCP
APAE1590R1340AKDB2-T 13.0 x 13.0 x 4.0mm
• 1575.42/1590MHz • GPS + GLONASS • RHCP
• 50Ω
ABBTM-2.4GHz-33-T 29.0 x 25.5 x 2.8mm
• Bluetooth Spec v1.2 (class 2) • UART • 1.8V, 3.3V
• HSP, HFP, A2DP, AVRCP • Built-in Antenna
APAE1590R1350AKDB5-T 13.0 x 13.0 x 5.0mm
• 1575.42/1590MHz • GPS + GLONASS • RHCP
• 50Ω
ABBTM-2.4GHz-51-T 20.0 x 13.4 x 2.2mm
• Bluetooth Spec v2.1 (class 2) • UART • 3.3V • HSP,
HFP, A2DP, AVRCP
APAE1590R2540AKDB1-T 25.0 x 25.0 x 4.0mm
• 1575.42/1590MHz • GPS+GLONASS • RHCP
• 50Ω • GLONASS:1575.42MHz (GPS), 1592.00 to
1608MHz (GLONASS)
ABBTM-2.4GHz-52-T 23.23 x 11.93 x 2.0mm
• Bluetooth Spec v2.1 (class 2) • UART • 3.3V • HSP,
HFP, A2DP, AVRCP
APAE2338L2540DDDB1-T 25.0 x 25.0 x 4.0mm
• 2338.00MHz • SDARS • LHCP • 50Ω
ABBTM-2.4GHz-T 26.9 x 13.0 x 2.5mm
• Bluetooth Spec v2.0+EDR (class 2) • UART • 3.3V
• SPP, OPP, PBAP • Built-in Antenna
APAE868R2540JBDB2-T 25.0 x 25.0 x 4.0mm
• 868.00MHz • RFID (EU) • RHCP • 50Ω
ABBTM-NVC-MDCS42A 25.8 x 13.4 x 2.2mm
• Bluetooth v2.1+EDR (class 2) • UART, USB • 3.3V
• SPP, HID, iAP
APAE915R2540ABDB1-T 25.0 x 25.0 x 4.0mm
• 915.00MHz • RFID (USA) • RHCP • 50Ω
ABBTM-NVC-MDCS56 23.24 x 11.93 x 2.05mm
• Bluetooth v2.1+EDR (class 2) • UART/I2C, PCM
• 3.3V • HFP, A2DP, AVRCP, SPP, iAP
APAEA1575R0940K14-T 9.0 x 9.0 x 4.0mm
•1575/1606MHz • GPS/WLAN • RHCP • 50Ω
ABBTM-NVC-MDCS71 19.5 x 12.5 x 2.4mm
• Single mode Bluetooth v4.0 low energy • UART/I2C
master • 1.8V to 3.6V • Proximity, Find Me, Heart
Rate, HID, iBeacon
APAES1575R1040J34-T 10.0 x 10.0 x 4.0mm
• 1575/1606MHz • GPS/WLAN • RHCP • 50Ω
APAES868R8060C16-T 80.0 x 80.0 x 6.0mm
• 868MHz • RFID • RHCP• 50Ω
Frequency Translators
ABFT-20MHz 7.0 x 5.0 x 2.0mm
• Input 10MHz; Output 20MHz • 3.3V • 14mA
APAES915R6460C16-T 62.5 x 62.5 x 6.0mm
• 915MHz • RFID • RHCP • 50Ω
ABFT-40MHz 7.0 x 5.0 x 2.0mm
• Input 10MHz; Output 40MHz • 3.3V • 14mA
APAES915R80C16-T 80.0 x 80.0 x 6.0mm
• 915MHz(US) • 868MHz(EU) • RFID • RHCP • 50Ω
APAES923R3640C16-T 36.0 x 36.0 x 4.0mm
• 923MHz • RFID • RHCP • 50Ω
Passive Patch Antennas
APAE1575R1240ABDD1-T 12.0 x 12.0 x 4.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAE1575R1340ABDD6-T 13.0 x 13.0 x 4.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAES923R4560C16-T 45.0 x 45.0 x 6.0mm
• 923MHz • RFID • RHCP • 50Ω
Active (Internal) Patch Antenna
APAM2764YK0175 27.0 x 27.0 x 6.4mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAE1575R1540AZDB2F-T 15.0 x 15.0 x 4.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAM1866YA18 18.0 x 18.0 x 6.6mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAM1568YE15V2.0 15.0 x 15.0 x 6.8mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAE1575R1820ABDC1-T 18.0 x 18.0 x 2.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAM1268JL02V2.0 12.0 x 12.0 x 6.8mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAE1575R1840AADB7-T 18.0 x 18.0 x 4.0mm
• 1575.42MHz • GPS • RHCP
APAM1368YB13V3.0 13.0 x 13.0 x 6.8mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAE1575R1840BADB1F-T 18.0 x 18.0 x 4.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAM1348YD13V2.0 13.0 x 13.0 x 4.8mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAE1575R2040ABDD2-T 20.0 x 20.0 x 4.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAM1068JL01V2.0 10.0 x 10.0 x 6.8mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
APAE1575R2520ABDD7-T 25.0 x 25.0 x 2.0mm
• 1575.42MHz • GPS • RHCP • 50Ω
APAM0968JL03V2.0 9.0 x 9.0 x 6.8mm
• 1575.42MHZ • RHCP • 50Ω • Active Internal GPS
13
 Distributor Stocking Item 13
For detail datasheets, please visit: www.abracon.com
RFID Tag
APAMPS-105 Φ76.8 x 15.8mm • Active
• GPS + GSM • RHCP • 50Ω • 1575.42MHz
ART868X130903TX13 13.0 x 9.0 x 3.0mm
• 865-868MHz Frequency Range • RFID Tag
APAMPS-106 Φ75 x 14.1mm • Active
• GPS + GSM • RHCP • 50Ω • 1575.42MHz
ART868X2117225TX21 21.0 x 17.0 x 2.25mm
• 865-868MHz Frequency Range • RFID Tag
APAMP-107 48.6 x 39.2 x 15.2mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ART868X25275YZ25 25.0 x 25.0 x 2.75mm
• 865-868MHz Frequency Range • RFID Tag
APAMP-108 54.5 x 44.5 x 14.8mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ART915X130930TX13 13.0 x 9.0 x 3.0mm
• 902-928MHz • FID Tag
APAMP-109 50.6 x 50.6 x 15.1mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ART915X2117225TX21 21.0 x 17.0 x 2.25mm
• 902-928MHz frequency range • RFID Tag
ART915X25275YZ25 25.0 x 25.0 x 2.75mm
• 902-928MHz frequency range • RFID Tag
APAMP-110 49.2 x 40.0 x 15.2mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ART923X855406TX02 85.0 x 54.0 x 0.635mm
• 902-928MHz frequency range • RFID Tag
APAMP-111 38.3 x 35.0 x 12.0mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ART923X1015YZ10 Φ10.0 x 1.5mm
• 920-925MHz frequency range • RFID Tag
APAMP-112 46.0 x 38.0 x 15.0mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
RFID Reader
APAMP-113 38.0 x 34.0 x 12.0mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ARRCN5 18.0 x 18.0mm
• 915MHz(US) • 868MHz(EU) • RFID Reader
ARRAN5 25.0 x 25.0mm
• 915MHz(US) • 868MHz(EU) • RFID Reader
APAMP-114 26.0 x 23.0 x 12.0mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ARRRN5 36.0 x 36.0mm • 915MHz(US)
• 868MHz(EU) • RFID Reader
APAMP-115 40.0 x 35.0 x 13.1mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ARRSN5 45.0 x 45.0mm
• 915MHz(US) • 868MHz(EU) • RFID Reader
ARRTN5 63.5 x 63.5mm
• 915MHz(US) • 868MHz(EU) • RFID Reader
APAMP-116 44.0 x 37.0 x 14.5mm
• GPS Active • RHCP • 50Ω • 1575.42MHz
ARRUN5 80.0 x 80.0mm • 915MHz(US)
• 868MHz(EU) • RFID Reader
APAMP-117 44.0 x 37.0 x 14.5mm
• GPS+GLONASS • RHCP • 50Ω • 1575.42MHz
APAMS-118 108.1 x Ø10.0mm
• GSM900:890-960MHZ (gain: 2db)
• GSM1800:1710-1880MHZ(gain: 3db) • Linear
• 50Ω • GSM External
Active (External) Patch Antennas
APAMS-101 115.0 x 22.0 x 7.0mm
• GSM • Linear • 50Ω
• 820 to 960MHz (GSM900),
1710 to 1990 (GSM1800)
APAMS-119 78.0 x Ø12.0mm
• 890~960MHz/1710~1880MHz • Vertical • 50Ω
• GSM External
APAMS-102 138.0 x 21.0 x 6.0mm
• GSM • Linear • 50Ω • 820 to 960MHz (GSM900)
, 1710 to 1880MHz (GSM1800), 1850 to 1990MHz
(GSM1900) 1900 to 2170MHz (UMTS)
APAMS-120 77.0 x Ø7.0mm
• 2350-2450MHZ,5700-5900MHZ • Linear • 50Ω
• GSM External
APAMS-103 78.0x25.0x3.8mm
• GSM • Linear • 50Ω • 820 to 960MHz (GSM900),
1710 to 1880MHz (GSM1800)
APAMS-121 86.0 x Ø10.0mm
• 2350-2450MHZ • 5700-5900MHZ • Linear • 50Ω
• GSM External
APAMS-104 111.0 x Φ6.78mm
• GSM • Linear • 50Ω • 890 to 960MHz (GSM900)
1710 to 1880MHz (GSM1800)
14
14
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
Chip Antennas
Chip Antennas
ACA-101-T 4.0 x 2.0 x 1.2 mm • Bluetooth/WLAN
• 2442.5MHz • 85MHz BW • 50Ω • Linear
AMCA52-2R540G-S1F-T 5.2 x 2.1 x 1.0mm
• WLAN / WiMax • Peak Gain 2.5 dBi typ
• 2540MHz, ≥200MHz B/W 50Ω • Linear
ACA-102-T 1.4 x 1.1 x0.7mm • Bluetooth/WLAN
• 2442.5MHz • 85MHz BW• 50Ω • Linear
AMCA52-2R710G-S1F-T 5.2 x 2.1 x 1.0mm
• WLAN / WiMax • Peak Gain 2.5 dBi typ
• 2710MHz, ≥200MHz B/W 50Ω • Linear
AMCA52-2R780G-S1F-T 5.2 x 2.1 x 1.0mm
• WLAN / WiMax • Peak Gain 2.5 dBi typ
• 2780MHz, ≥200MHz B/W 50Ω • Linear
ACA-103-T 5.0 x 2.0 x 1.2 mm
• Bluetooth/WLAN • 2442.5MHz & 5487.5MHz
• 85MHz BW & 675MHz BW • 50Ω • Linear
AMCA62-2R640G-01F-T 6.0 x 2.0 x 1.0mm
• WLAN / WiMax • Peak Gain 2.5 dBi typ
• 2640MHz, ≥200MHz B/W 50Ω • Linear
ACA-104-T 3.0 x 1.5 x 1.2 mm • GPS
• 1575MHz • 10MHz BW • 50Ω • Linear
AMCA72-2R470G-S1F-T 7.0 x 2.0 x 1.0mm
• WiFi / Bluetooth / ISM • Peak Gain 2.7 dBi typ
• 2470MHz, ≥200MHz B/W 50Ω • Linear
AMCA31-2R450G-S1F-T 3.2 x 1.6 x 1.2mm
• Bluetooth/ WLAN • Peak Gain 0.5 dBi typ
• 2450MHz, ≥90MHz B/W 50Ω • Linear
AMCA72-2R860G-02F-T 7.0 x 2.0 x 1.0mm
• WLAN / WiMax • Peak Gain 2.7 dBi typ
• 2860MHz, ≥200MHz B/W 50Ω • Linear
AMCA31-2R800G-S1F-T 3.2 x 1.6 x 1.2mm
• WLAN / WiMax • Peak Gain 0.5 dBi typ
• 2800MHz, ≥100MHz B/W 50Ω • Linear
AMCA81-3R010G-S1F-T 8.0 x 1.0 x 1.0mm
• LTE Band 42 / WLAN • Peak Gain 2.0 dBi typ
• 3010MHz, ≥200MHz B/W 50Ω • Linear
AMCA52-2R350G-S1F-T 5.2 x 2.1 x 1.0mm
• WCS / WiMax • Peak Gain 2.5 dBi typ
• 2350MHz, ≥150MHz B/W 50Ω • Linear
AMCA92-2R660G-S1F-T 9.0 x 2.0 x 1.0mm
• LTE Band 38 / WiMax • Peak Gain 3.0 dBi typ
• 2660MHz, ≥200MHz B/W 50Ω • Linear
AMCA52-2R510G-S1F-T 5.2 x 2.1 x 1.0mm
• WCS / WiMax • Peak Gain 2.5 dBi typ
• 2510MHz, ≥200MHz B/W 50Ω • Linear
Please see page-24 for AWCCA series
Chip Antennas- ACA Series
Wireless Charging Coil Assemblies
AWCCA Series
What is Inductive Charging?
Inductive charging sometimes known as “Wireless Charging” uses an
electro-magnetic field to transfer energy between two devices.
The ACA Series is a range of solid dielectric chip antennas designed
to operate across Bluetooth, WiFi and GPS bands, where their
compact size makes them ideal for wireless connectivity solutions.
Energy is sent through the inductive couplings between a base unit
and mobile device to charge a battery or power a d.c. electrical
device.
Key Features:
• Use of high dielectric ceramics materials allows compact design
• Single or multi-band, across a range of bands, making them ideal
for multi-band applications like Mobile Phone / Tablets
• They offer low profile, light weight, small form factor suitable for
compact applications
• Excellent gain and directivity performance relative to their size
• Ease of matching during application development
• Better SAR response than PCB traces
• Improved isolation allowing multiple antenna applications
• Their omni-directional radiation highly suitable for mobile
communications
Key Features:
• High Quality Litz windings
• Low dc resistance
• High Q-Factor value
• Competitive prices
• Broad range of sizes, thickness and inductance
• AWCCA-107T52H40-C01-B referenced to IDT9036A
Applications:
• In Car charging Systems
• Batteries and Battery Chargers
• Consumer Electronics
• Digital Cameras and Camcorders
• Infrastructure and Furniture Manufacturer
• Mobile Phone Charging Systems
• Power Supplies
• Hand Power Tools
Applications:
• Bluetooth exists in many products, such as telephones, tablets,
media players, and gaming systems
• Bluetooth Headsets / Intercoms
• Bluetooth Audio Headsets
• Keyboards / Mouse
• Games Consoles / Controllers
• Wireless bridge between two Industrial Ethernet networks
• Short range transmission of health sensor data from medical
devices to mobile phone, or dedicated “Telehealth” devices
• Personal security applications – tags
Abracon offers customization of Wireless Charging Coils
to meet different customer or standard requirements
15
 Distributor Stocking Item 15
For detail datasheets, please visit: www.abracon.com
NFC Antennas
ANFCA-4030-A01 40 x 30mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.5±10% (μH) • Q = 25 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-6040-A02 60 x 40mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.9±10% (μH) • Q = 40 • Peel and Stick antenna designs.
• Ferrite sheet backing optimizes magnetic fields
ANFCA-4030-A02 40 x 30mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.7±10% (μH) • Q = 40 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-5040-A02 50 x 40mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.8±10% (μH) • Q = 40 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-3225-A02 32 x 25mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.8±10% (μH) • Q = 35 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-5035-A01 50 x 35mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 2.7±10% (μH) • Q = 40 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-2525-A02 25 x 25mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.8±10% (μH) • Q = 35 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-4545-A01 45 x 40mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.5±10% (μH) • Q = 40 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-2515-A02 25 x 15mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.8±10% (μH) • Q = 30 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-4535-A01 45 x 35mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.45±10% (μH) • Q = 20 • Peel and Stick antenna
designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-1510-A02 15 x 10mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.8±10% (μH) • Q = 30 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA-4040-A02 40 x 40mm
• Wide operating temperature range -40°C to +85°C
• Ultra thin flexible antenna structure (140 - 240 μm)
• 1.7±10% (μH) • Q = 40 • Peel and Stick antenna designs
• Ferrite sheet backing optimizes magnetic fields
ANFCA Series;
NFC Flexible Peel & Stick Antennas
The ANFCA series is a range of NFC antennas designed to operate at 13.56MHz. Its design is constructed from a flexible and
very thin-layered structure to form a compact peel and stick NFC antenna
Key Features:
• Ultra thin flexible antenna structure (140 - 240 μm).
• Peel and Stick antenna designs.
• Ferrite backed design that optimizes magnetic fields, increasing the resultant field strength of the antenna.
• -40°C to +85°C operating temperature range.
• Matching to leading NFC controller IC’s.
• Wide range of sizes and shapes to meet different application designs.
• Competitive price.
• Customized solutions available.
Applications:
• Cashless Payment Readers
• Physical Access Readers
• Ticket readers
• NFC Wallets
• Rugged PDA’s with NFC for industrial use.
• Peer to Peer links to enable other wireless links like WiFi NFC enabled speaker
16
16
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
Circuit Protection- Varistors
Inductors- Air Coil
AMCV-0201 0.6 x 0.3 x 0.3mm
• ESD Protection • DC- 5.5 to 14V • AC- 4 to 10V
• Energy: 0.005 to 0.01J • Surge Current: 1 to 5A
AIAC-0805C 2.85 x 1.80 x 2.10mm
• Range: 3.9~ 68nH • DCR(Max): 2.6 ~ 42.2mΩ • Idc
(max): 320 to 1200mA • Q(min): 70 to [email protected]
• SRF(min): 1300 to 3000MHz
AMCV-0402 1.0 x 0.5 x 0.5mm
• ESD Protection • DC- 5.5 to 26V • AC- 4 to 18.4V
• Energy: 0.005 to 0.05J • Surge Current: 2 to 10A
AIAC-1008C 3.20 x 1.90 x 2.20mm
• Range: 6.8~ 120nH • DCR(Max): 4.0 ~ 63.4mΩ
•Idc(Max):320 to 1200mA • Q (Min) 70 to
[email protected] • SRF(Min): 950 to 3000MHz
AMCV-0402LC 1.0 x 0.5 x 0.5mm
• High Speed Circuits • DC-14 to 26V
• AC- 10 to 18.4V
• Energy: 0.003 to 0.005J • Surge Current: 1 to 2A
AIAC-1512C 3.30 x 2.50 x 2.60mm
• Range: 2.5~18.5nH • DCR (Max): 0.8~3.9mΩ
• Idc (Max): 4.0~4.8A • Q (Min): [email protected]
• SRF (Min): 2.5 ~ 3GHz
AMCV-0603 1.6 x 0.8 x 0.8mm
• ESD Protection • DC- 5.5 to 26V • AC- 4 to 18.4V
• Energy: 0.005 to 0.05J • Surge Current: 3 to 20A
AIAC-1606C 4.04 x 3.10 x 1.37mm
• Range: 5.6~ 7.15nH • DCR(Max): 9.0 ~ 10.0mΩ
• Idc (max): 1.6 A • Q(min): [email protected]
• SRF(min): 6.0 to 6.5GHz
AMCV-0603LC 1.6 x 0.8 x 0.8mm
• High Speed Circuits • DC- 14 to 26V
• AC- 10 to 18.4V • Energy: 0.003 to 0.005J
• Surge Current: 1 to 2A
AIAC-1812 4.7 x 3.5 x 3.5mm
• Range: 22~ 120nH • DCR(Max): 4.8 ~ 11.1mΩ
•Idc(Max):2.2~3.2A • Q (Min)[email protected]
• SRF(Min): 2.2 ~ 3.2GHz
AMCV-0805 2.0 x 1.25 x 0.85mm
• ESD Protection • DC- 5.5 to 30V
• AC- 4 to 21.3V • Energy: 0.005 to 0.05J
• Surge Current: 3 to 15A
AIAC-2712C 6.00 x 2.50 x 2.60mm
• Range: 17.5~43nH • DCR (Max): 4.5~6.7mΩ
• Idc (Max): 2.5~3.5A • Q (Min):[email protected]
• SRF (Min): 1.0~2.2GHz
AMCV-1206H 3.2 x 1.6 x 1.05mm
• Surge Current • DC- 5.5 to 100V
• AC- 4 to 75V • Energy: 0.7 to 1.2J
• Surge Current: 250 to 300A
AIAC-4125C 9.0 x 4.4 x 4.6mm
• Range: 90~538nH • DCR (Max): 14~42mΩ
• Idc (Max): 2.0~3.5A • Q (Min): [email protected]
• SRF (Min): 0.4~1GHz
AMCV-1210H 3.2 x 2.5 x 1.7mm
• Surge Current • DC- 5.5 to 100V
• AC- 4 to 75V • Energy: 0.7 to 2.0J
• Surge Current: 300 to 400A
Inductors- Axial Leaded
AIAM-01 2.41 x ϕ6.35mm
• Inductance Range: 0.022~1000μH• DCR
(Max):0.025~72Ω • Idc (Max): 28~ 2400mA • Q:
[email protected]~796MHz • SRF (Min): up to 900 MHz
AMCV-1812H 4.5 x 3.2 x 2.5mm
• Surge Current • DC- 5.5 to 100V
• AC- 4 to 75V • Energy: 1.0 to 4.0J
• Surge Current: 600 to 800A
AIAP-01 9.14 x ϕ3.3mm - Epoxy Coated
• Range: 1.0~100μH • DCR (Max): 0.018~75Ω
• Idc (Max): 3300~52mA • SRF (Min): 0.27~190MHz
AMCV-2220H 4.5 x 3.2 x 2.5mm
• Surge Current • DC- 5.5 to 100V
• AC- 4 to 75V • Energy: 2.3 to 12.0J
• Surge Current: 900 to 1200A
AIAP-02 14.0 x ϕ6.4mm • Range: 3.9~18000μH
• DCR (Max):0.019~48.3Ω • Idc (Max): 0.09~7.3A
Circuit Protection - NTC Thermistors
AIAP-03 22.9 x ϕ11.4mm
• Range: 3.9~120000μH • DCR(Max): 0.007~37Ω
• Idc (Max): 15.5~0.070A
ABNTC-0402 1.0 x 0.5 x 0.5mm
• R25: 3.3 to 680kΩ • B25/50: 3380 to 4400K
• Power: 100mW
AIAP-05 17.8 x ϕ6.4mm • Range: 3.9~18000μH
• DCR (Max): 0.019~48.3Ω • Idc (Max):0.039~1.28mA
ABNTC-0603 1.6 x 0.8 x 0.8mm
• R25: 3.3 to 130kΩ • B25/50: 3450 to 4700K
• Power: 100mW
AIAS-03 10.4 x ϕ4.11mm
• Range: 0.10~100,000μH • DCR (Max):0.025~678Ω
• Idc (Max): 3~1790mA • Q:[email protected]~25MHz
• SRF (Min): 0.11~250MHz
ABNTC-0805 2.0 x 1.25 x 0.85mm
• R25: 2.0 to 1300kΩ •B25/50: 3450 to 4700K
• Power: 200mW
AICC-00 4.06 x ϕ2.54mm
• Range: 0.22~220μH • DCR (Max): 0.40~ 20Ω
• Idc (Max): 35~400mA • Q (Min):
[email protected]~25.2MHz • SRF (Min): 5~150MHz
Tantalum Capacitors
ATCC-211(A, B, P)
• A: 3.2 x 1.60 x 1.6mm
B: 3.5 x 2.80 x 1.9mm
P: 2.0 x 1.25 x 1.1mm
• DC - 4 to 50V • Capacitance: 1 to 220uF
• ESR: 0.5 to 25Ω
AICC-01 7.11 x ϕ3.05mm • Range: 0.022~1000μH • DCR (Max): 0.40~33Ω
• Idc (Max): 40~400mA • Q (Min):[email protected]~25.2MHz • SRF (Min): 1.4~150MHz
AICC-02 6.22 x ϕ2.8mm • Range: 0.27~1000μH
• DCR (Max): 0.08~20Ω • Idc (Max): 60~1110mA
• Q (Min): 40~60MHz @0.796~25.2MHz • SRF
(Min): 360~1.2MHz
17
 Distributor Stocking Item 17
For detail datasheets, please visit: www.abracon.com
AICC-03 9.53 x ϕ3.30mm
• Range: 0.022~1000μH • DCR (Max): 0.21~14Ω
• Idc (Max): 100~880mA
• Q (Min): [email protected]~25.2MHz
• SRF (Min): 1.4~380MHz
AIUR-03 - Radial 12.0 x ϕ9.0mm
• Range: 1~1000uH • DCR (Max): 0.013~2.9Ω
• Ir (A):0.29~10 • Q (Min): [email protected]~7.96MHz
• SRF (Min): 1.3~150MHz
AIUR-04 - Radial 11.2 x ϕ8.5mm
• Range: 100~27000uH • DCR (Max): 2~80Ω
• Ir (A): 30~200mA • Q (Min): [email protected]~796kHz
• SRF (Min): 0.3~5.3MHz
AICC-04 7.62 x ϕ3.00mm
• Range: 0.10~1000μH • DCR (Max): 0.08~27.4Ω
• Idc (Max): 28~1380mA • Q(Min): 38
[email protected]~25.2MHz • SRF (Min):1.8~680MHz
AIUR-05 - Radial 9.0 x ϕ8.5mm
• Range: 2.2~1500H • DCR (Max): 0.012~3.5Ω
• Ir (A): 0.15~3A • Q (Min): [email protected]~7.96MHz
• SRF (Min): 1.2~50MHz
Inductors- Ceramic
AIMC-0201 0.6 x 0.3 x 0.3mm
• Range: 1~47nH • DCR (Max):0.2~3.6Ω
• Ir (mA): 0.05~0.3 • Q (Min): [email protected]
• SRF (Min): 1.6~12GMHz
AIUR-06 - Radial 18.3 x ϕ12.7mm
• Range: 3.9~15000uH • DCR (Max): 0.016~20.5Ω
• Ir (A): 0.1~6.5
AIMC-0402 1.0 x 0.5 x 0.5mm
• Range: 1~120nH • DCR (max):0.08~2.8Ω
• Ir (A): 0.15~0.4 • Q (Min): [email protected]
• SRF (MHz): 0.6~10GHz
AIUR-07 - Radial 4.6 x ϕ6.0mm
• Range: 10~1000uH • DCR (Max): 0.1~6.3Ω
• Ir (A): 0.1~1.05 • Q (Min): [email protected]~2.52MHz
AIMC-0402HQ High Q • 1.0 x 0.6 x 0.5mm
• Range: 1~15nH • DCR (max):0.05~0.22Ω
• Ir (A): 0.43~1 • Q (Min): [email protected]
• SRF (MHz): 4~6GMHz
AIUR-08 - Radial 10.0 x ϕ10.0mm
• Range: 10~1000uH • DCR (Max): 0.03~1.7Ω
• Ir (A): 0.53~5.3
AIMC-0603 1.6 x 0.8 x 0.8mm
• Range: 1~220nH • DCR (max): 0.05~2.1Ω
• Ir (A): 0.3~0.5 • Q (Min): [email protected]~100MHz
• SRF (Min): 0.4~10GHz
AIUR-09 - Radial 6.0 x ϕ10.0mm
• Range: 100~1000uH • DCR (Max): 0.044~3.3Ω
• Ir (A): 0.36~3.6
AIUR-10 - Radial 7.5 x ϕ8.0 mm
• Range: 5.6~10000uH • DCR (Max): 0.08~25Ω
• Ir (A): 0.1~2.45
AIMC-0805 2.0 x 1.25 x 0.85mm
• Range: 1.5~220nH DCR (max): 0.1~1.4Ω
• Ir (A): 0.3~0.6 • Q (Min): [email protected]~100MHz
• SRF (Min): 0.35~6GHz
AIUR-11 - Radial 11.43 x ϕ9.53mm
• Range: 3.9~68000uH • DCR (Max): 0.022~115Ω
• Ir (A): 0.036~1.6
Inductors- Drum Core
AIRD-01 - Radial 21.0 x ϕ16.5 mm
• Range: 1~680uH • DCR (Max): 3~700mΩ
• Ir (A): 0.8~9
AIUR-12 - Radial 7.20 x ϕ8.20mm
• Range: 10~4700uH • DCR (Max): 0.07~18Ω
• Ir (A): 0.07~1.5 • Q (Min): [email protected]
• SRF (Min): 0.3~20MHz
AIRD-02 - Radial 21.0 x ϕ21.0 mm
• Range: 1~2200uH • DCR (Max): 0.003~1.54Ω
• Ir (A): 0.8~11.4
AIUR-15 - Radial 20.0 x ϕ18.0mm
• Range: 22~1000uH • DCR (Max): 0.03~0.71Ω
• Ir (A): 1~5.7
AIRD-03 - Radial 21.0 x ϕ28.0 mm
• Range: 1~19000uH • DCR (Max): 0.003~9Ω
• Ir (A): 0.5~21
AIUR-16 - Radial 9.50 x ϕ7.00mm
• Range: 3.9~33000uH • DCR (Max): 0.02~100Ω
• Ir (A): 0.03~1.3
AIRD-06 - Radial 21.0 x ϕ21.0 mm
• Range: 1~2200uH • DCR (Max): 0.003~1.54Ω
• Ir (A): 0.8~11.4 • Q (Min): [email protected]
AIAC-1606C Series
SMT Air Coil Inductor in low profile
4.04 x 3.10 x 1.37mm
AISR-01 - Radial 14.0 x ϕ10.8mm
• Range: 1000~120000uH • DCR (Max): 3.4~97Ω
• Ir (mA): 8~90 • Q (Min): [email protected]
Abracon’s AIAC-1606C Series air core inductors
combine Q factor of up to 100 and SRF as high as
6.5GHz, making them ideal for IF/RF applications.
Constructed with 1.37mm height package, it can
work over wide temperature range of -40°C to
125°C.
Features:
• Small and low profile air core inductors feature
high Q and SRF
• Wide Range Frequency Response
• Tolerance as low as 2%
• Standard flat top jacket suitable
for pick and place
AISR-04 - Radial 10.0 x ϕ10.30mm
• Range: 10~1000uH • DCR (Max): 0.02~1.5Ω
• Ir (A): 0.39~3.9 • SRF (Min): 1.5~32MHz
AISR-875 - Radial 7.5 x ϕ7.8mm
• Range: 10~10000uH • DCR (Max): 0.05~33Ω
• Ir (mA): 84~2900
AIUR-01 - Radial 7.5 x ϕ8.5mm
• Range: 100~15000uH • DCR (Max): 2~80Ω
• Ir (mA): 30~200 • Q (Min): [email protected]~796kHz
• SRF (Typ): 0.5~6.1MHz
AIUR-02H - Radial 12.0 x ϕ8.5mm
• Range: 1~1000uH • DCR (Max): 0.021~1.18Ω
• Ir (A): 0.22~3.5 • Q (Min): [email protected]~7.96MHz
18
18
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
Inductors- Ferrite
Ferrite Chip Beads- General Purpose
AIML-0402 1.0 x 0.5 x 0.5mm
• Range: 1~2.7μH • DCR (Max):00.9~2Ω
• Idc (Max): 10~15mA • Q (Min): [email protected]
• SRF (Min): 22~40MHz
ACML-0201 0.6 x 0.3 x 0.3mm
• Impedance Range: [email protected]
• DCR (Max): 0.4~1.7Ω• Idc (Max): 200mA
ACML-0402 1.0 x 0.5 x 0.5mm
• Impedance Range: [email protected]
• DCR (Max): 0.05~1.6Ω • Idc (Max): 100~500mA
AIML-0603 1.6 x 0.8 x 0.8mm
• Range: 0.047~27μH • DCR (Max):0.2~2.75Ω
• Idc (Max): 1~50mA • Q (Min):[email protected]~50MHz
• SRF (Min): 12~600MHz
ACML-0603 1.60 x 0.80 x 0.80mm
• Impedance Range: [email protected]
• DCR (Max): 0.05~1Ω • Idc (Max): 200~1000mA
AIML-0603HC High Current 1.6 x 0.8 x 0.8mm
• Range: 3.3~4.7μH • DCR (Max):0.40~0.50Ω
• Idc (Max): 60~80mA • SRF (Min): 50~70MHz
ACML-0603U 1.65 x 0.80 x 0.80mm
• Impedance Range: [email protected]
• DCR (Max): 10~150mΩ • Idc (Max): 1000~6000mA
AIML-0805 2.00 x 1.25 x 0.85mm
• Range:0.047~47μH • DCR (Max): 0.2~1.8Ω
• Idc (Max): 4~300mA • Q (Min):[email protected]~50MHz
• SRF (Min): 12~350MHz
ACML-0805 2.00 x 1.25 x 0.85mm
• Impedance Range: [email protected]~100MHz
• DCR (Max): 0.05~0.8Ω • Idc (Max): 200~2200mA
AIML-0805HC High Current
2.00 x 1.25 x 1.15mm
• Range: 1.0~22.0μH • DCR (Max):0.15~0.70Ω
• Idc (Max): 40~400mA • SRF (Min): 18~75MHz
ACML-1206 3.2 x 1.6 x 0.9 mm
• Impedance Range: [email protected]~100MHz
• DCR (Max): 0.05~1Ω • Idc (Max): 200~2000mA
ALFB-01 Φ3.50 x 4.70mm
• Impedance Range: 110Ω [email protected]
AIML-1008HC High Current
2.50 x 2.00 x 0.85mm
• Range: 1.0~4.7μH • DCR (Max):0.085~0.12Ω
• Idc (Max): 150~300mA • SRF (Min): 20~60MHz
Ferrite Chip Beads- High Current
ACML-0402H 0.6 x 0.3 x 0.3mm
• Impedance Range: [email protected]
• DCR (Max): 0.4~1.7Ω• Idc (Max): 200mA
AIML-1206 3.2 x 1.6 x 1.1mm
• Range: 0.047~390μH • DCR (Max): 0.15~3Ω
• Idc (Max): 5~300mA • Q (Min): [email protected]~50MHz
• SRF (Min): 11~320MHz
ACML-0402HC 1.00 x 0.50 x 0.50mm
• Impedance Range: [email protected]
• DCR (Max): 0.05~0.30Ω• Idc (Max): 1000~2000mA
AIML-1206HC High Current
3.20 x 1.60 x 1.10mm
• Range: 1.0~10.0μH • DCR (Max):0.10~0.50Ω
• Idc (Max): 100~300mA • SRF (Min): 28~90MHz
ACML-0603H 1.60 x 0.80 x 0.80mm
• Impedance Range: [email protected]
• DCR (Max): 0.03~0.35Ω • Idc (Max): 800~2000mA
Ferrite Chip Beads- Chip Bead Array
ACML-0805H 2.00 x 1.25 x 0.85mm
• Impedance Range: [email protected]
• DCR (Max): 0.02~0.25Ω• Idc (Max): 500~3000mA
ACSB-04 5.60 x 5.00 x 1.50mm
• Impedance: [email protected] • DCR (Max): 9Ω
• Idc (Max): 5A
ACSB-02 8.50 x 3.10 x 2.60mm
• Impedance: [email protected] • DCR (Max): 0.9mΩ
• Idc (Max): 5A
ACSB-05 5.60 x 4.80 x 3.00mm
• Impedance: [email protected] • DCR (Max): 3mΩ
• Idc (Max): 5A
ACSB-03 4.00 x 3.10 x 2.60mm
• Impedance: [email protected] • Idc (Max): 5A
ASPI-2010HC Series- 2.0 x 1.6 x 1.0mm SMD
High Current, Wirewound Power Inductor with Metalized Ferrite Core
Abracon’s ASPI-2010HC series of SMD power inductors is designed for consumer products and portable equipment with demanding current handling
requirements. Constructed with a metalized ferrite core, specialized copper wire, the core is coated with a magnetic resin compound for shielding.
This unique combination yields the ability to handle large amounts of current with lower RDC, compared to traditional ferrite power inductors.
Applications:
• Smart Phones, Tablets, Notebooks, Desktops
• Servers
• Blu-Ray Disc Recorders, Set Top Boxes, Portable Gaming Consoles and Navigation Devices
Key features include:
• A metalized ferrite core that provides saturation current as high as 4.5A
• A DCR as low as 40mΩ to reduce power loss
• Magnetic resin shielding to minimize leakage flux and EMI
• A core design resulting in excellent shock resistance
• A wide operating temperature range from -40°C to +125°C
• Space saving 2.0x1.6x1.0mm, RoHS compliant and lead-free SMD package
19
 Distributor Stocking Item 19
For detail datasheets, please visit: www.abracon.com
Inductors- Low Profile Wire-Wound
ASPI-2410 2.4 x 24 x 1.0mm
Low Profile Wire Wound • L Range: 0.68~22μH •
DCR (Max): 60~1470mΩ • Idc (Max): 0.4~2.5A
ASPI-0310FS 3.0 x 3.0 x 1.0mm
Low Profile Wire Wound
• L Range: 1~47μH • DCR (Max): 50~1600mΩ
• Idc (Max): 0.28~2.3A
ASPI-2510 2.5 x 2.0 x 1.0mm
Low Profile Wire Wound
• L Range: 0.47~10μH • DCR (Max): 38~712mΩ
• Idc (Max): 0.56~2.5A
ASPI-0312FS 3.0 x 3.0 x 1.2mm
Low Profile Wire Wound
•L Range: 1~47μH • DCR (Max): 50~1450mΩ
• Idc (Max): 0.25~1.49A
ASPI-2512 2.5 x 2.0 x 1.2mm
Low Profile Wire Wound
• L Range: 0.47~10μH • DCR (Max): 47~630mΩ
• Idc (Max): 0.59~2.15A
ASPI-0315FS 3.0 x 3.0 x 1.5mm
Low Profile Wire Wound
• L Range: 1~100μH • DCR (Max): 28~2100mΩ
• Idc (Max): 0.25~2.3A
ASPI-0410FS 4.0 x 4.0 x 1.0mm
Low Profile Wire Wound
• L Range: 1~47μH • DCR (Max): 100~1810mΩ
• Idc (Max): 0.24~1.8A
ASPI-2515 2.5 x 2.0 x 1.5mm
Low Profile Wire Wound
• L Range: 0.47~10μH • DCR (Max): 35~445mΩ
• Idc (Max): 0.75~2.8A
Inductors- Molded Wire-Wound
ASPI-0412FS 4.0 x 4.0 x 1.2mm
Low Profile Wire Wound
• L Range: 0.82~100μH • DCR (Max): 0.065~2.873Ω
• Idc (Max): 0.25~1.65A
AISM-1008 2.5 x 2.0 x 1.8mm
• Range: 0.01~100μH • DCR (Max):0.26~21Ω
• Idc (Max): 530~60mA
• Q (Min):[email protected]~0.796MHz
• SRF (Min): Up to 230MHz
ASPI-0418FS 4.0 x 4.0 x 1.88mm
Low Profile Wire Wound
• L Range: 0.82~220μH • DCR (Max): 16~2960mΩ
• Idc (Max): 0.28~4A
AISM-1210 3.2 x 3.5 x 2.2mm
• Range: 0.01~330μH • DCR (Max):0.13~34Ω
• Idc (Max): 5~2500mA • Q (Min):
[email protected]~100MHz• SRF (Min): Up to 2500MHz
ASPI-0425 4.0 x 4.0 x 2.5mm
Low Profile Wire Wound
• L Range: 1~220μH • DCR (Max): 12~2300mΩ
• Idc (Max): 0.2~3A
AISM-1812 4.8 x 3.5 x 3.5mm
• Range: 0.1~820μH • DCR (Max):0.2~43Ω
• Idc (Max): 30~800mA • Q (Min):
[email protected]~25.2MHz• SRF (Min): Up to 300MHz
ASPI-0612FS 6.0 x 6.0 x 1.2mm
Low Profile Wire Wound
• L Range: 2.2~100μH • DCR (Max): 78~2171mΩ
• Idc (Max): 0.32~1.8A
AISM-1812H 4.5 x 3.2 x 3.2mm
• Range: 1.0~330μH • DCR (Max): 0.11~13Ω
• Idc (Max): 90~1050mA • Q (Min):
[email protected]~7.96MHz • SRF (Min): Up to 200MHz
ASPI-0615FS 6.0 x 6.0 x 2.0mm
Low Profile Wire Wound
• L Range: 0.5~47μH • DCR (Max): 9~370mΩ
• Idc (Max): 3.0~0.77A
AISM-2220 5.8 x 5.2 x 5.2mm
• Range: 1.0~1000μH • DCR (Max): 0.03~15Ω
• Idc (Max): 85~1800mA
• Q (Min):[email protected]~7.96MHz
• SRF (Min): Up to 95MHz
ASPI-0628 6.0 x 6.0 x 2.8mm
Low Profile Wire Wound
• L Range: 0.9~100μH • DCR (Max): 13~600mΩ
• Idc (Max): 0.65~4.6A
ASPI-0520LR 5.6 x 5.2 x 2.0mm
Low Resistance • L Range: 1.0~5.6μH
• DCR(Max): 0.0185~0.075Ω • Idc (Max): 3.3~7.5A
ASPI-0530HI 5.6 x 5.2 x 3.0mm
High Current • L Range: 1.5~2.2μH
• DCR(Max): 0.014~0.035Ω • Idc (Max): 5.5~7A
ASPI-0645 6.0 x 6.0 x 4.5mm
Low Profile Wire Wound
• L Range: 1~220μH • DCR (Max): 10~920mΩ
• Idc (Max): 0.5~6.5A
ASPI-0530LR 5.6 x 5.2 x 3.0mm
Low Resistance • L Range: 1.5~5.6μH
• DCR(Max): 0.02~0.065Ω • Idc (Max): 4.0~7.0A
ASPI-0840 8.0 x 8.0 x 4.0mm
Low Profile Wire Wound
• L Range: 0.47~6.8μH • DCR (Max): 0.059~0.816Ω
• Idc (Max): 0.52~2.3A
ASPI-0630HI 7.2 x 6.65 x 3.0mm
High Current • L Range: 1.0~10.0μH
• DCR(Max): 0.010~0.105Ω • Idc (Max): 3~11.0A
ASPI-2010 2.0 x 2.0 x 1.2mm
Low Profile Wire Wound
• L Range: 0.47~6.8μH • DCR (Max): 0.059~0.816Ω
• Idc (Max): 0.52~2.3A
ASPI-0630LR 7.2 x 6.65 x 3.0mm
Low Resistance • L Range: 0.47~22.0μH
• DCR(Max): 0.004~0.167Ω • Idc (Max): 2.5~18.0A
ASPI-2010HC 2.0 x 1.6 x 1.0mm
Low Profile Wire Wound
• L Range: 0.24~10μH • DCR (Max): 0.040~0.826Ω
• Idc (Max): 0.65~3.00A • SRF (Min): 15~145MHz
ASPI-1040HI 11.15 x 10.0 x 4.0 mm
High Current • L Range: 0.16~10.0μH
• DCR(Max): 0.065~0.3Ω • Idc (Max): 7.5~40.0A
ASPI-1338 12.9 x 13.8 x 3.8mm High Current
• L Range: 0.22~8.2μH• DCR (Max): 1.3~31mΩ
• Idc (Max): 8~38.5A
ASPI-2012 2.0 x 2.0 x 1.2mm
Low Profile Wire Wound • L Range: 0.16~33μH •
DCR (Max): 0.031~2.16Ω • Idc (Max): 0.30~2.5A
20
20
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
ASPI-1367 14.0 x 12.9 x 6.7mm High Current
• L Range: 0.1~10.0μH
• DCR (Max): 0.005~0.019Ω • Idc (Max): 10~16A
ASPI-0638S 6.7 x 6.7 x 4.0mm
• L Range: 3.3~100μH • DCR (Max): 0.02~0.36Ω
• Idc (Max): 0.65~3.5A
ASPI-4020HI 4.5 x 4.1 x 2.1mm High Current
• L Range: 0.1~3.3μH • DCR(Max): 4.0~87mΩ
• Idc (Max): 2.5~12.0A
ASPI-0703S 7.3 x 7.3 x 3.2mm
• L Range: 2.2~1000μH • DCR (Max): 0.032~9.4Ω
• Idc (Max): 0.16~3.2A
ASPI-7318 7.3 x 6.8 x 3.0mm High Current
• L Range: 0.1~22μH • DCR (Max): 1.7~230mΩ
• Idc (Max): 2~30A
ASPI-0704S 7.3 x 7.3 x 4.5mm
• L Range: 2.2~1000μH • DCR (Max): 0.03~6.0Ω
• Idc (Max): 0.18~5.0A
Inductors- Power
ASPI-104S 10.1 x 10.0 x 3.8mm
• L Range: 1~330μH • DCR (Max): 0.006~1.09Ω
• Idc (Max): 0.7~13.6A
ASMCI-0603 1.6 x 0.8 x 0.8mm
• L Range: 0.1~10μH • DCR (Max): 0.14~0.9Ω
• Idc (Max): 50~700mA
ASPI-1205S 12 x 12 x 6mm
• L Range: 1.3~330μH• DCR (Max): 0.01~0.51Ω
• Idc (Max): 0.68~8A
ASMCI-0805 2.0 x 1.25 x 1.25mm
• L Range: 0.1~10μH • DCR (Max): 0.07~0.5Ω
• Idc (Max): 60~1000mA
ASPI-1207S 12 x 12 x 8mm
• L Range: 1.0~330μH • DCR (Max): 0.006~0.471Ω
• Idc (Max): 1.2~14A
ASMPH-0603 1.6 x 0.8 x 0.8mm
• L Range: 0.22~2.2μH • DCR (Max): 0.1~0.3Ω
• Idc (Max): 300~1250mA
ASPI-0403S 6.6 x 4.45 x 2.92mm
• L Range: 1~10000μH • DCR (Max): 0.04~32.8mΩ
• Idc (Max): 0.02~3A
ASMPH-0805 2.0 x 1.25 x 0.9mm
• L Range: 0.47~4.7μH • DCR (Max): 0.08~0.25Ω
• Idc (Max): 280~1200mA
ASPI-1306S 18.54 x 15.24 x 7.62mm
• L Range: 10.0~1,000μH • DCR (Max): 0.04~2.01Ω
• Dc (Max): 0.53~3.9A
ASMPH-0806 2.0 x 1.6 x 0.9mm
• L Range: 0.47~4.7μH • DCR (Max): 0.08~0.14Ω •
Idc (Max): 220~1500mA
ASPI-0804TS 12.95 x 9.04 x 5.08mm
• L Range: 1~1000μH • DCR (Max): 0.025~1.45Ω
• Isat (Max): 0.085~4A
ASMPH-1008 2.5 x 2.0 x 0.9mm
• L Range: 0.47~4.7μH • DCR (Max): 0.04~0.11Ω
• Idc (Max): 320~1500mA
ASPI-3012S 3.2 x 3.2 x 1.2mm
• L Range: 1.2~22μH • DCR (Max): 0.078~1.187Ω
• Idc (Max): 0.3~1.4A
ASPI-0312S 3.2 x 3.2 x 1.2mm
• L Range: 1.2~22μH • DCR (Max): 78~1187mΩ
• Idc (Max): 0.3!~1.4A
ASPI-4020S 4.0 x 4.0 x 2.0mm
• L Range: 1~100μH • DCR (Max): 0.029~1.55Ω
• Idc (Max): 0.31~2.15A
ASPI-0316S 3.2 x 3.2 x 1.5mm
• L Range: 1.0~33μH • DCR (Max): 70~1283mΩ
• Idc (Max): 0.29~1.9A
ASPI-4030S 4.0 x 4.0 x 3.0mm
• L Range: 0.91~120μH • DCR (Max): 0.013~1.35Ω •
Idc (Max): 0.42~4.15A
ASPI-0320S 3.2 x 3.2 x 2.0mm
• L Range: 1.5~47μH • DCR (Max): 95~1157mΩ
• Idc (Max): 0.32~1.4A
ASPI-5040S 5.0 x 5.0 x 4.0mm
• L Range: 1.5~47μH • DCR (Max): 0.024~0.372Ω •
Idc (Max): 0.9~3.6A
ASPI-0412S 4.2 x 4.2 x 1.2mm
• L Range: 1.2~27μH • DCR (Max): 71~989mΩ
• Idc (Max): 0.39~1.88A
ASPI-6045S 6.0 x 6.0 x 4.5mm
• L Range: 0.82~330μH • DCR (Max): 0.008~1.27Ω •
Idc (Max): 0.57~5.9A
ASPI-0418S 4.2 x 4.2 x 1.8mm
• L Range: 1.2~33μH • DCR (Max): 63~524mΩ
• Idc (Max): 0.61~1.9A
ASPI-0315S 3.8 x 3.8 x 1.8mm
• L Range: 3.3~330μH • DCR (Max): 0.085~9.45Ω
• Idc (Max): 0.32~1.10A
ASPI-8040S 8.0 x 8.0 x 4.2mm
• L Range: 0.82~330μH • DCR (Max): 0.008~0.889Ω
• Idc (Max): 0.64~6.3A
Inductors- Thin Film
ASPI-0428S 4.7 x 4.7 x 3.0mm
• L Range: 1.2~180μH • DCR (Max): 0.024~1.54Ω
• Idc (Max): 0.22~2.56A
ATFC-0201 0.6 x 0.3 x 0.23mm
• Range: 0.1~22nH • DCR (Ω):0.2~3.5 • Idc (mA):
80~300 • Q: [email protected] • SRF (Min): Up to 9GHz
ASPI-0503S 5.7 x 5.7 x 3.0mm
• L Range: 2.5~470μH • DCR (Max): 0.018~2.69Ω
• Idc (Max): 02.6~0.20A
ATFC-0201HQ High Q 0.6 x 0.3 x 0.23mm
• Range: 0.1~4nH • DCR (Ω):0.05~0.4 • Idc (mA):
350~850 • Q: [email protected] • SRF (Min): Up to 6GHz
ASPI-0602S 6.7 x 6.7 x 3.0mm
• L Range: 3.3~100μH • DCR (Max): 0.024~0.535Ω
• Idc (Max): 0.54~3A
ATFC-0402 1.0 x 0.5 x 0.32mm
• Range: 0.2~33nH • DCR (Ω):0.1~4.5 • Idc (mA):
75~800 • Q: [email protected] • SRF (Min): Up to 14GHz
ATFC-0402HQ High Q 0.6 x 0.3 x 0.23mm
• Range: 1.3~4.7nH • DCR (Ω):0.12~0.5 • Idc (mA):
330~730 • Q: [email protected] • SRF (Min): Up to 7GHz
21
 Distributor Stocking Item 21
For detail datasheets, please visit: www.abracon.com
Inductors- Unshielded
ASPI-1306T 15.24 x 18.54 x 7.11mm
• Range: 1~1000μH • DCR (Max): 0.009~1.8mΩ
• Idc (Max): 0.56~8.6A
AISC-1206H 3.2 x 1.6 x 1.8mm
• Range: 0.045~100μH • DCR (Max):0.027~8.45Ω
• Idc (Max): 1~175mA
ASPI-1907HC 19.4 x 13.3 x 6.8mm
• Range: 0.47~100μH • DCR (Max): 0.003~0.206Ω
• Idc (Max): 1.8~25.1A
AISC-1210H 3.5 x 2.5 x 2.5mm
• Range: 0.15~680μH • DCR (Max):21~40000mΩ
• Idc (Max): 0.04~4.4A
AISC-1812H 4.5 x 3.2 x 2.6mm
• Range: 1.0~2200μH • DCR (Max): 0.08~65Ω
• Idc (Max): 0.03~1.08A • SRF (MIin): 1.3~120MHz
ASPI-5619 5.6 x 5.6 x 1.9mm
• Range: 1.5~47μH • DCR (Max): 0.033~0.703Ω
• Idc (Max): 0.65~3.5A
Inductors- Wire Wound
AISC-2220H 5.7 x 5.0 x 4.7mm
• Range: 0.12~10000μH • DCR (Max): 0.01~140Ω
• Idc (Max): 0.05~6A
AISC-0402 1.0 x 0.5 x 0.5mm
• Range: 1.0~47nH • DCR (Max): 45~750mΩ
• Idc (Max): 0.15~1.36A • Q (Min):[email protected]
• SRF (Min): Up to 12.7GHz
ASPI-0309 3.0 x 3.0 x 0.8mm
• Range: 2.2~47μH • DCR (Max): 170~3300mΩ
• Idc (Max): 0.021~0.98A
AISC-0402HP High Current 1.0 x 0.55 x 0.5mm
• Range: 2~68nH • DCR (Max): 0.038~0.95Ω
• Idc (Max): 320~2100mA • Q (Min):
[email protected]~250MHz • SRF (Min): Up to 8.5GHz
ASPI-0302 3.5 x 3.0 x 2.3mm
• Range: 10~390μH • DCR (Max):0.23~7.8Ω
• Idc (Max): 0.115~0.76A
AISC-0603 1.8 x 1.12 x 1.02mm
• Range: 1.8~560nH • DCR (Max): 0.043~8.1Ω
• Idc (Max): 700~1000mA • Q (Min):
[email protected]~250MHz • SRF (Min): Up to 6GHz
ASPI-0403 4.5 x 4.0 x 3.2mm
• Range: 1.0~68μH • DCR (Max): 0.049~1.12Ω
• Idc (Max): 0.37~2.56A
AISC-0603F 1.6 x 1.0 x 1.0mm
• Range: 47~22000nH • DCR (Max): 0.06~11.4Ω
• Idc (Max): 70~1200mA
• SRF (Min): Up to 2.35GHz
ASPI-0504 5.8 x 5.2 x 4.5mm
• Range: 4.7~1000μH • DCR (Max): 0.04~14.4Ω
• Idc (Max): 0.15~3.5A
ASPI-0703 7.8 x 7.0 x 3.5mm
• Range: 10~330μH • DCR (Max): 0.081~1.495Ω
• Idc (Max): 0.28~1.44A
AISC-0603HC High Current 1.8 x 1.12 x 1.02mm
• Range: 1.6~24nH • DCR (Max): 0.03~0.105Ω
• Idc (Max): 1800~2400mA • Q (Min):
[email protected] • SRF (Min): Up to 12.5GHz
ASPI-0705 7.8 x 7.0 x 5.0mm
• Range: 10~470μH • DCR (Max): 0.07~1.96Ω
• Idc (Max): 0.34~2.3A
AISC-0603HP High Current 1.8 x 1.12 x 1.02mm
• Range: 1.7~390nH • DCR (Max): 0.033~3.8Ω
• Idc (Max): 1800~2100mA • Q (Min): [email protected] • SRF (Min): Up to 8.5GHz
ASPI-1004 10.0 x 9.0 x 4.2mm
• Range: 10~560μH • DCR (Max): 0.053~1.904Ω
• Idc (Max): 0.32~2.38A
AISC-0805 2.3 x 1.7 x 1.55mm
• Range: 12~1000nH • DCR (Max): 0.15~17.5Ω
• Idc (Max): 150~600mA • Q (Min): [email protected] • SRF (Min): Up to 4.1GHz
ASPI-1005 10.0 x 9.0 x 5.4mm
• Range: 10~1000μH • DCR (Max): 0.06~2.75Ω
• Idc (Max): 0.22~2.6A
ASPI-0402T 6.60 x 4.45 x 2.92mm
• Range: 1.0~1000μH • DCR (Max):0.05~13.8Ω
• Isat (Max): 0.07~2.9A
AISC-0805F 2.3 x 1.7 x 1.55mm
• Range: 1~68uH • DCR (Max): 1.2~17.5Ω
• Idc (Max): 40~245mA • Q (Min): [email protected] • SRF (Min): Up to 63MHz
ASPI-0706HC 9.1 x 6.1 x 4.7mm
• Range: 0.18~47μH • DCR (Max): 0.003~0.47Ω
• Idc (Max): 0.72~10A
AISC-0805HQ High Current 2.29 x 1.73 x 1.52mm
• Range: 2.5~51nH • DCR (Max): 0.02~0.12Ω
• Idc (Max): 1000~1600mA • Q (Min): [email protected] • SRF (Min): Up to 63MHz
ASPI-0802T 12.9 x 9.4 x 3.0mm
• Range: 10~1000μH • DCR (Max): 0.11~8.4Ω
• Idc (Max): 0.05~2A
AISC-0805LP 2.29 x 1.73 x 1.03mm
• Range: 1.8~1000nH • DCR (Max): 0.03~3.5Ω
• Idc (Max): 1.7~800mA • Q (Min): [email protected] • SRF (Min): Up to 9.4GHz
ASPI-0804HC 13.5 x 10.2 x 6.0mm
• Range: 0.33~100μH • DCR (Max): 2~271mΩ
• Idc (Max): 1.2~16A
ASPI-0804T 13.5 x 9.5 x 5.5mm
• Range: 1~1000μH • DCR (Max): 0.009~3Ω
• Idc (Max): 0.3~9A
AISC-1008 2.92 x 2.79 x 2.29mm
• Range: 4.7~8200nH • DCR (Max): 0.11~10.7Ω
• Idc (Max): 150~1000mA • Q (Min): [email protected] • SRF (Min): Up to 6GHz
ASPI-0810T 12.9 x 9.4 x 11.4mm
• Range: 1~1000μH • DCR (Max): 0.01~2Ω
• Idc (Max): 0.1~6.8A
AISC-1008F 2.92 x 2.79 x 2.29mm
• 2.92 x 2.79 x 2.29mm
• Range: 330~10000nH • DCR (Max): 0.17~2.95Ω
• Idc (Max): 300~700mA • Q (Min): [email protected] • SRF (Min): Up to 600MHz
ASPI-1306HC 22.4 x 16.0 x 8.0mm
• Range: 0.78~220μH • DCR (Max): 2.6~357mΩ
• Idc (Max): 2.6~30A
22
22
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
LAN Magnectics
AISC-1008HQ 2.92 x 2.79 x 2.29mm
• Range: 330~10000nH • DCR (Max): 0.17~2.95Ω
• Idc (Max): 300~700mA • Q (Min): [email protected] • SRF (Min): Up to 600MHz
ALAN-101 11.43 x 9.24 x 5.51 mm
• 10/100 Base-T • 1CT : 1CT • IL: -1.1dB 0.1 to
100MHz • RL: -18dB @ 30MHz, -14dB @ 60MHz,
-11.5dB @ 80MHz
AISC-1008LP 2.92 x 2.79 x 1.4mm
• Range: 3.3~1000nH • DCR (Max): 0.03~3.7Ω
• Idc (Max): 300~1000mA • Q (Min): [email protected] • SRF (Min): Up to 6GHz
ALAN-102 12.70 x 9.30 x 6.35 mm
• 10/100 Base-T • 1CT : 1CT • IL: -1.1dB 0.1 to
100MHz • RL: -20dB @ 30MHz, -14dB @ 60MHz,
-11.5dB @ 80MHz
AISC-1206 3.56 x 2.16 x 1.52mm
• Range: 3.3~1200nH • DCR (Max): 0.07~3.2Ω
• Idc (Max): 300~1000mA • Q (Min): [email protected] • SRF (Min): Up to 6.2GHz
ALAN-134 12.70 x 9.30 x 6.35 mm
• 10/100 Base-T • 1CT : 1CT • IL: -1.0dB 0.3 to
100MHz • RL: -18dB @ 2-30MHz, -14.4dB @
40MHz, -13.1dB @ 50MHz, -12 @ 60-80MHz
AISC-1210 3.65 x 2.95 x 2.70mm
• Range: 3.9~8600nH • DCR (Max): 0.05~1.1Ω
• Idc (Max): 200~1000mA • Q (Min): [email protected] • SRF (Min): Up to 6.0GHz
ALAN-508 12.70 x 9.30 x 6.35 mm
• 10/100 Base-T POE • 1CT : 1CT • IL: -1.1dB 0.1 to
100MHz • RL: -18dB @ 30MHz, -14dB @ 60MHz,
-11.5dB @ 80MHz
AISC-1210HS High SRF 3.2 x 3.05 x 1.3mm
• Range: 2.2~33nH • DCR (Max): 0.5~5Ω
• Idc (Max): 220~800mA • Q (Min): [email protected]
• SRF (Min): Up to 150MHz
ALAN-511 18.03 x 15.70 x 6.90 mm
• 1000 Base-T • 1CT : 1CT • IL: -1.0dB 0.1 to
100MHz • PoE+: 750mA
APT-106 11.43 x 9.24 x 5.51 mm
• 10/100 Base-T • 1CT : 1CT • IL: -1.1dB 0.3 to
100MHz • RL: -20dB @ 30MHz, -14dB @ 60MHz,
-11.5dB @ 80MHz
ALAN-511
AISC- 0603HP
1000 Base-T, Power over Ethernet Plus (PoE+)
LAN Transformer in 24-pin with
6.90mm Maximum Height SMD Package
High Q, High SRF, High Current RF Wirewound Chip
Inductors in 1.80 x 1.12 x 1.02mm SMD Package
Abracon’s AISC-0603HP series of SMD inductors is
designed for high volume RF applications. Constructed with
low loss ceramic core wound with wire, it has high-Q, high
self resonant frequency and high current to optimize performance at RF frequencies.
RF applications:
Abracon’s ALAN-511 LAN Transformer is designed to work
with gigabit PHY ICs. With the Power over Ethernet Plus
(PoE+) capability, it enables power transmission over
Ethernet cabling, eliminating the need for separate data and
power wires to each network device.
Applications:
• IP phones and Cameras
• Network Infrastructure
• Mobile Devices
• RFID Tag Readers
• Game Consoles and other PoE-enabled devices
Smart Phone, Cordless Phone, Remote Control, Wireless
LAN, Wireless Mouse, Wireless Keyboard, GPS, RFID, Base
Station, Repeater, RF Transceiver, Bluetooth
Broadband Applications:
LED TV Filter, Tuner, Cable Modem,
Set Top Box.
What ALAN-511 offers designers?
• Works with gigabit Ethernet with 750mA current capacity
• Supports 4 pairs of Category 5 UTP cables
• Provides a minimum inductance of 350µH and 1500Vrms
isolation per IEEE 802.3 requirements
• Offers industry-leading insertion loss of 1.0dB maximum
over 100kHz to 100MHz
• Operates over commercial temperature range of
0°C to +70°C
• Standard 18.03 x 15.70 x 6.90mm, RoHS compliant,
SMT package
Other Applications:
USB2.0, IEEE1394.
Key features include:
• Higher Q and current than the standard AISC-0603 series.
• Tight inductance tolerance of 2% available.
• Wide operating temperature range of -40ºC to +125ºC.
• RoHS Compliant and lead free.
23
 Distributor Stocking Item 23
For detail datasheets, please visit: www.abracon.com
RJ45 Jack- Single port
RJ45 Jack- Multi port
ARJ14A
59.12 x 13.60 x 21.50 mm / 58.40 x 11.50 x 17.60 mm
• Tap Down, 10/100/1000 Base-T
ARJ-146 16.60 x 13.50 x 32.60mm
• Tap Down, 10/100/1000 Base-T with PoE
ARJ21A 17.27 x 28.40 x 25.30 mm
• Tap Up and Down, 10/100/1000 Base-T
ARJ11A 16.26 x 13.84 x 21.59mm
• Tap Down, 10 Base-T
ARJ11B 16.26 x 13.84 x 21.59mm
• Tap Down, 10/100 Base-T
ARJE-0029 16.80 x 28.91 x 25.78mm
• Tap Up and Down, 10/100 Base-T, Dual USB
Combo
ARJ11C 16.26 x 13.84 x 21.59mm
• Tap Up, 10/100/1000 Base-T
ARJE-0032 16.20 x 21.05 x 29.11mm
• Tap Up, 10/100 Base-T, Single USB Combo
ARJ11D 16.26 x 13.84 x 21.59mm
• Tap Up, 10/100 Base-T
ARJU21A 16.78 x 21.08 x 26.00 mm
• Tap Up, 10/100 Base-T Single USB
ARJ11E 16.26 x 13.84 x 21.59mm
• Tap Down, 1000 Base-T
ARJU31A 17.40 x 30.40 x 26.10mm
• Tap Up, 10/100 Base-T Dual USB
ARJ11F 16.26 x 13.84 x 21.59mm
• Tap Up, 10/100/1000 Base-T
ARJU31B 18.85 x 30.52 x 27.40 mm
• Tap Up, 10/100/1000 Base-T Dual USB
ARJ11G 16.26 x 13.84 x 21.59mm
• Vertical, 10/100/1000 Base-T
ARJ12A 31.28 x 13.60 x 21.50 mm
• Tap Up and Down, 10/100/1000 Base-T
ARJC Series
16.2 x 13.55 x 25.3mm/ 16.0 x 13.55 x 21.1mm
• Tap Up, 10/100 Base-T
Wireless Charging Coils
AWCCA-107T52 Series
107.95mm x 52.5mm x 4mm
• Linear Array of Primary Coils, 2 lower coils
(12.0μH), 1 upper coil (11.5μH) • For Tx applications
working with 12V • High Permeability Shielding
ARJE Series Size varies
• Tap Up, 10/100/1000 Base-T
AWCCA-38R32 Series
107.95mm x 52.5mm x 4mm • Linear Array of
Primary Coils, 2 lower coils (12.0μH), 1 upper coil
(11.5μH) • For Tx applications working with 12V
• High Permeability Shielding
ARJP11A 16.26 x 13.84 x 21.59 mm
• Tap Down, 10/100 Base-T, PoE & PoE+
ARJP11B 16.26 x 13.84 x 21.59 mm
• Tap Down, 10/100 Base-T, PoE & PoE+
AWCCA-48R32 Series
48.5mm x 32.5mm x 1.2mm • Wireless Charging
Receiver single Coil (10.5μH) • For Tx or Rx Applications • High Permeability Shielding
ARJP11C 16.6 x 13.5 x 32.6 mm
• Tap Up, 10/100 Base-T, PoE
AWCCA-50N50 Series 50mm x 50mm,
Height options 3.5mm, 4.0mm or 5.0mm
• Wireless Charging Coil for Transmitter or Receiver
applications • 6.3μH & 24μH options
• High Permeability Shielding
AWCCA-53N53 Series
53mm x 53mm x 5.0mm • Wireless Charging Coil for
Transmitter or Receiver applications • 6.3μH & 24μH
options • High Permeability Shielding
24
24
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
Common Mode Choke
Chokes- Line Filter
ACM-0603 1.60 x 0.85 x 1.10mm
• Impedance Range: [email protected]
• DCR (Max): 0.08~0.28Ω • Idc (Max): 400~500mA
ALFT-02A 18.6 x 13 x 20.6mm
• Inductance Range: 0.4~39mH
• DCR (Max): 0.06~1.9Ω • Idc (Max): 0.4~2.6A
ACM-21 2.0 x 1.2 x 1.2 mm
• Impedance Range: [email protected]
• DCR (Max): 0.25~0.4Ω • Idc (Max): 280~400mA
ALFT-03A 23.9 x 18 x 21.6mm
• Inductance Range: 0.6~105mH • Idc (Max): 0.2~3A
ACM-21H for HDMI 2.0 x 1.2 x 1.2mm
• Impedance Range: [email protected]
• DCR (Max): 0.30~0.40Ω • Idc (Max): 280~320mA
ALFT-04 28.58 x 16.26 x 5.85mm
• Inductance Range: 120~10000uH
• DCR (Max): 4.5~40mΩ • Idc (Max): 3~6A
ACM-21U for USB3.0 2.0 x 1.2 x 1.2mm
• Impedance Range: [email protected]
• DCR (Max): 0.40Ω • Idc (Max): 280mA
ALFT-09V 16.5 x 11.5 x 17.0mm
• Inductance Range: 0.5~10mH
• DCR (Max): 0.2~3.6mΩ • Idc (Max): 0.3~1.4A
ACM-31 3.2 x 1.6 x 1.8mm
• Impedance Range: [email protected]
• DCR (Max): 0.30~1.20Ω • Idc (Max): 200~370mA
ALFT-16 13.97 x 11.43 x 6.35mm
• Inductance Range: 35~1600uH
• DCR (Max): 5~300mΩ • Idc (Max): 1~6A
ACMF-03 0.88 x 0.68 x 0.5mm
• Impedance Range: [email protected]
• DCR (Max): 1.8~2.8Ω • Idc (Max): 100mA
ASTC-01 8.9 x 11.4 x 4.7mm
• Inductance Range: 0.42~299.87uH
• DCR (Max): 6~1525mΩ • Idc (Max): 0.32~5.5A
ACMF-04 1.25 x 1.00 x 0.50mm
• Impedance Range: [email protected]
• DCR (Max): 2.8Ω • Idc (Max): 100mA
ASTC-02 11.4 x 13.9 x 6.35mm
• Inductance Range: 0.49~298.93uH
• DCR (Max): 5~1003mΩ • Idc (Max): 0.54~7.9A
Chokes- Wide Band Choke
AWBC-03 Φ6.00 x 10.00mm
• Impedance: [email protected], [email protected],
[email protected]
ASTC-03 8.9 x 11.4 x 4.7mm
• Inductance Range: 0.4~302.5uH
• DCR (Max): 5~1432mΩ • Idc (Max): 0.22~5.5A
AWBC-05 Φ6.00 x 10.00mm
• Impedance: [email protected], [email protected],
[email protected]
ASTC-04 11.4 x 13.9 x 6.35mm
• Inductance Range: 0.44~298.12uH
• DCR (Max): 4~672mΩ • Idc (Max): 0.62~7A
AWBC-09 Φ6.00 x 10.00mm
• Impedance: [email protected], [email protected],
ASTC-4H 14 x 14 x 6.4mm
• Inductance Range: 0.31~1000uH
• DCR (Max): 3~1500mΩ • Idc (Max): 0.25~12.2A
Transformer
AITC-449
8.20 x 6.60 x 5.40mm
• Inductance: 264uH min @100kHz
• DCR (Max): 1.5Ω • Turns Ratio: 1:1:1
• SRF (Min): 2.5MHz • Hipot: 500VDC, 1.0mA, 1sec
ASTC-07C-702-1R5 16.38 x 14.22 x 8.89mm
• Inductance Range: 7000uH
• DCR (Max): 0.3mΩ • Idc (Max): 2A
AITC-449
SMT Gate Drive Transformers
Abracon AITC-449 transformer is designed for high switching speed, transformer coupled MOSFET and IGBT gate drive circuits.
Key features include:
• Wide operating frequency from 50kHz to 2MHz
• Standard EP5 SMT package
• A wide operating temperature range from -40°C to +125°C
• Space saving 8.2 x 6.6 x 5.4mm, RoHS compliant SMD package
Applications:
• DC/AC Converter
• AC/AC Converter
• DC/DC Converter
• Motor Controller
25
 Distributor Stocking Item 25
For detail datasheets, please visit: www.abracon.com
Part Number
ABLNO Precision
Frequency Divider
Eval Board
ABPSM-ULN-A
Pierce Analyzer System
(PAS)
SYNC-10.00MHz
26
Description
Applications
• ABLNO-EVAL is a Frequency Divider Evaluation Board
designed to facilitate oscillator signal characterization
• Built-in Divider scheme with exceptionally low Additive
Jitter to characterize ÷1, ÷2, ÷4 or ÷8 combination of the
reference signal
• Contains Standard SMA connectors providing VDD, Vc,
RF Output and External Oscillator signal connectivity
• Ideally suited to characterize Phase Noise, jitter, frequency pull & frequency stability over temperature characterization
• Rated for 10MHz to 200MHz frequency range
• 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
• Optional SMA connector port to characterize
an external oscillator signal
• Rated for -40°C to +85°C operation enabling
frequency stability over temperature characterization of an oscillator device
• AC Adapter Input Voltage 100VAC to 240VAC; 50Hz
and 60Hz cycles - World Wide Capability
• 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
• 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:
[email protected]
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
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 standalone 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
• 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
 Distributor Stocking Item
For detail datasheets, please visit: www.abracon.com
PAS (Pierce Analyzer System)
……….. Abracon’s Advanced Board Characterization Service
Today, majority of electronic circuits are based on clocked logic (including microprocessors, microcontrollers, FPGAs and CPLDs), rePIERCE
SYSTEM
(PAS)
quiringANALYZER
a timing source.
Depending
on the frequency accuracy requireADVANCED
BOARD CHARACTERIZATION
SERVICE
ments, some
employ oscillators
while others use off-the-shelf
quartz
PAS-BC3WK
crystals in conjunction with the built-in oscillator circuit; embedded in
INTRODUCTION:
most microcontrollers and microprocessors.
not all
embedded
usewiththe
configuThe Most
majority ofifelectronic
designs
have some form solutions
of timing associated
them.Pierce
DependingOscillator
on the frequency accuracy
requirements, some employ oscillators while others use off-the-shelf crystals in conjunction with the built-in oscillator circuit;
ration, integrated as part of the SOC (system-on-chip). The obvious
embedded in most µcontrollers and µprocessors.
advantages include cost, size and power compared to a stand-alone osMost if not all embedded solutions use the Pierce Oscillator configuration, integrated as part of the SOC (system on chip).
The cillator;
obvious advantages
include
cost,key
size andlimitation
power comparedis
to athe
stand-alone
oscillator;
while the key of
limitation
the
while
the
proper
matching
theisquartz
proper matching of the quartz crystal with the on-board Pierce Oscillator.
crystal with the on-board Pierce Oscillator.
Figure (1) outlines the oscillator block and the key components that influence the overall performance of the timing loop.
Effective Loaded Capacitance, as seen by the Crystal = CL
The loop capacitors primarily influence the overall oscillator loop ca= {((Cin+C1) x (C2+Cout)) / (Cin+C1+C2+Cout)} + Board Strays
pacitance, as CL
seen
by the crystal. This effective loop capacitance deterFor
example;
Let
C1
= C2oscillator
= 27 pF; Cin = loop
5.0 pF &is
Cout
= 10.0 pF and Board
Strays = 0.50
then;
mines how far the
resonating,
relative
to pF
the
desired
CL
=
{
((27+5)
x
(27+10))
/
(5+27+27+10)
}
+
0.50
=
17.65
pF
resonant frequency. However, the overall long-term performance of the
oscillator loop is influenced by the following factors:
Therefore specifying a crystal with 18.0 pF plating load capacitance would be the closest match for frequency accuracy.
• The reactive impedance (Xc) of these loop capacitors
Besides
the frequency
accuracy
issue, while accounting
for Quartz Crystal’s set tolerance;
the reactive impedance (Xc) of the
• The
Inverter
Amplifier’s
transconductance
(gm)current
loop capacitors, in combination with the Inverter Amplifier’s transconductance (gm), the
limiting resistor Rs and the
presence
or absence
of the AGCor
or ALC
circuit as of
part the
of the current
oscillator looplimiting
– determines resistor
the boundary (Rs)
condition of the
• The
presence
absence
design.
• The presence or absence of the Automatic Gain Control (AGC) or AuThis boundary condition, commonly referred to as the Safety Factor (SF), is an important parameter to ensure that the
tomatic Level Control (ALC); with-in the integrated oscillator circuit
product design has sufficient margin to accommodate part-to-part and lot-to-lot variations; as well as eliminating product
performance
uncertainty
in production
volume.
These
factors
collectively
set the boundary condition of the design.
This boundary condition, commonly referred to as the Safety
Revised:Factor
03.12.12
30332 Esperanza, Rancho Santa Margarita, California 92688
(SF), is an important parameter to ensure
that the
product| www.abracon.com
design has
tel 949-546-8000
| fax 949-546-8001
sufficient margin to accommodate part-to-part and lot-to-lot variations;
as well as, eliminating product-performance-uncertainty in production
volume.
Historically, design engineers have optimized their circuit performance
via trial & error, at the expense of significant investment in time. Further, to properly determine the oscillator loop dynamics, the most accurate determination is made by breaking the oscillator loop and conducting key measurements using specialized equipment such as a Current
Probe.
Lastly, these measurements become increasingly sensitive if the timing
loop is driven by a Tuning Fork (32.768kHz) crystal. These crystals
are extremely sensitive to loading effects and to accurately determine
the in-circuit behavior of these components, extreme care and accuracy
is essential.
For instance, Automotive, Medical and Consumer Electronics solutions
typically utilize Tuning Fork Crystals for their Real-Time-Clocking
(RTC) needs. If the selected SOC has limited gain margin, there is a
high probability that some percentage of these Crystals will not properly start under adverse conditions, such as cold operating temperature
(-40ºC).
Another example would be a product designed to address the Zigbee
related solutions, which typically have a hard boundary condition of
±40 ppm relative to the carrier, for proper operation. This ±40 ppm
operational window actually needs to account for:
• Quartz Crystal set tolerance
• Shift through reflow
ABRACON IS
ISO9001:2008
CE RTIFIED
CERTIFIED
• Stability over temperature
• Aging during product-life-cycle
• Frequency pushing & pulling.
If the oscillator loop is not optimized, most of the ±40 ppm can
potentially be consumed by the set tolerance of the quartz crystal
alone; thereby causing potential field failures. These frequency
domain failures could be primarily attributed to the oscillator
frequency drifting over temperature or long term aging; to the point
that the oscillator loop is no longer with-in the allocated ±40 ppm
operational window. Besides the issues related to the oscillator loop
accuracy in frequency domain, the oscillator loop drive level must
also be properly quantified to ensure acceptable product performance
over temperature and time.
Although relatively low on the checklist of design engineers, the
Pierce Oscillator driven by an external resonator - such as a quartz
crystal can present significant challenge during a typical product
launch. Characterizing the oscillator loop during the design phase
should be a priority to mitigate the risk during product launch, as
well as, field returns down the road.
To overcome these challenges and provide an accurate assessment
of the oscillator loop dynamics; Abracon’s Advanced Engineering
Team has developed a Proprietary Pierce Analyzer System (PAS);
which is designed to analyze both the stand alone crystal, as well as
the performance of that particular crystal in the final circuit.
Visit www.abracon.com for Terms & Conditions of Sale
Key Features:
• Circuit characterization; provides 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 encom
passes both the stand-alone crystal performance, as well as incircuit behavior outlining safety factor as a function of crystal’s
ESR, etc.
• For additional information, please contact Abracon at:
[email protected]
 Distributor Stocking Item 27
ABRAC O N
PRO DUC T
CATALO G
About Abracon
California Headquarters
Abracon Corporation is a global manufacturer of frequency control, signal conditioning, clock
distribution and magnetic components. Abracon offers a wide selection of Quartz Crystals,
Crystal and MEMS Oscillators, Real Time Clocks, Bluetooth Modules, Ceramic Resonators,
SAW Filters and Resonators, Inductors, Transformers and Circuit Protection Components.
The company is ISO9001-2008 certified with design & Application Engineering resources
in California & Illinois; and Sales offices in Texas, California, China, Taiwan, Singapore,
Scotland, and Germany. Abracon’s products are offered through its Global Distribution
Network.
ABRACON CORPORATION was established on August 5th, 1992 with the vision of
becoming a top tier global manufacturer, with un-parallel Application Engineering & Sales
support. In pursuit of this vision, Abracon obtained ISO9001-2008 quality certification, made
select equity investments in both North American & off-shore manufacturing facilities and
30332 Esperanza | Rancho Santa Margarita
California 92688 | Phone: 949.546.8000
Texas - Order Fulfillment Center
technology partners, established channel partnerships with
up-coming technology companies and instituted a state-ofthe art engineering laboratory at its California location.
In November of 2013, Abracon established a new Midwest
order fulfillment center in Austin, Texas. The expansion
was necessary because of Abracon’s rapid growth and to
better serve our East Coast and European customers.
Abracon offers a broad product line servicing commercial,
industrial, consumer and select COTS-Military applications.
5101 Hidden Creek Lane | Spicewood | Texas | 78669 | Phone: 512-371-6159
Standard Warranty
Abracon warrants that the Products will, for a period of one (1) year, be free from defects in material and workmanship and conform to the Abracon
published specifications for the Products, in each case under normal use, conditions, and service. Abracon agrees to replace, without charge, any
defective Products which are returned to Abracon and which are confirmed, by Abracon’s inspection, to be defective within the terms of this warranty.
The warranty period commences on the date of original sale by Abracon.
ISO9001:2008
PERRY JOHNSON
REGISTRARS, INC.
PERRY JOHNSON
REGISTRARS, INC.




Abracon Corporation
Abracon Corporation
30332 Esparanza, Rancho Santa Margarita, CA 92688 United States
30332 Esparanza, Rancho Santa Margarita, CA 92688 United States




ISO 9001:2008
ISO 9001:2008


Design, Manufacture, and Distribution of Electronic Components
Design, Manufacture, and Distribution of Electronic Components
                

                

For PJR:
For PJR:
Terry Boboige, President
Terry Boboige, President
Perry Johnson Registrars, Inc. (PJR)
755 West Big Beaver Road, Suite 1340
Troy, Michigan 48084
(248) 358-3388
Perry Johnson Registrars, Inc. (PJR)
755 West Big Beaver Road, Suite 1340
Troy, Michigan 48084
(248) 358-3388
The use of the UKAS accreditation symbol is in respect to the activities
covered by the Accreditation Certificate Number 105.
The use of the UKAS accreditation symbol is in respect to the activities
covered by the Accreditation Certificate Number 105.








May 3, 2013
March 9, 2014
C2013-01214
May 3, 2013
March 9, 2014
C2013-01214
ABRACON Corporation
30332 Esperanza | Rancho Santa Margarita | CA 92688
Phone: 949.546.8000 | Fax: 949.546.8001
www.abracon.com
June 2014