Datasheet

ADVANCED INFORMATION
GB/GG Series Quartz Crystal
Legacy 49S Series
11.2 x 5.0 x 3.5mm & 11.2 x 5.0 x 2.5mm
GB GG
Quartz Crystal Metal Can (TH)
11.2 x 5.0 x 3.5mm Thru-Hole
Frequency Range:
•3.2 to 36.000 MHz, AT Fundamental
Product Features
•30.0 to 125.000 MHz, AT 3rd Overtone
• Standard: 3.5mm Max height GB Series
•26.8 to 54.000 MHz, BT Fundamental
• Low profile: 2.5mm Max height GG Series
• AT or BT cut performance
Characteristics at 25°C ±2°C:
• Resistance weld seal
•Frequency Calibration Tolerance: ±30ppm
• Pb-free and RoHS/Green compliant
•Load Capacitance: 8 to 32pF or Series Resonance
•Effective Series Resistance (ESR):
Product Description
Fundamental: 20 to 200Ω max depending on frequencey
3rd Overtone: 60 to 80Ω max depending on frequency
•Drive Level: 100μW typ. (500μW Max)
The GB/GG Series is a miniature, AT or BT
cut strip resonator crystal, housed in low
•Shunt Capacitance: 7pF Max
profile metal can package.
Temperature Range:
Applications
•Operating: –20 to +70°C or -40 to +85°C
• Set-Top Box/Multimedia
•Storage: –55 to +125°C
• Clock/VCXO Multiplier
• Network Adapter Cards
Temperature Stability:
• Modems
•±30ppm (–20 to +70°C) AT Cut
• Microcontrollers and Processors
•±50 or ±100ppm (–40 to +85°C) AT Cut
• Remote control devices
•0 to -100ppm (–20 to +70°C) BT Cut
Aging @ 25°C, first year:
•±3ppm Max
Reflow Temperature:
•260°C Max, 10 seconds Max (RoHS package)
SaRonix-eCera™ is a Pericom® Semiconductor company
•
US: +1-408-435-0800 TW: +886-3-4518888
•
All specifications are subject to change without notice.
www.saronix-ecera.com
GB/GG REV2008_OCT08_01.4
1
Quartz Crystal Metal Can (TH)
GB GG
GB/GG Series Quartz Crystal
Legacy 49S Series
Mechanical:
•Shock: JESD22-B104 Condition B
•Solderability: MIL-STD-883, Method 2003 (non-RoHS package)
•Solderability: J-STD-002( RoHS package )
•Terminal Strength: MIL-STD-883 Method 2004
•Vibration: JESD22-B103
•Solvent Resistance: JESD22-B107
•Resistance to Soldering Heat: MIL-STD-202, Method 210, Condition I or J (Non-RoHS package)
•Resistance to Soldering Heat: J-STD-020C Table 5-2 Pb-free devices (3 cycles max) (RoHS package)
Environmental:
•Gross Test Leak: JESD22-A109, Condition C
•Fine Test Leak: JESD22-A109, Condition A1
•Moisture Resistance: JESD22-A113
•Insulation Resistance: 500 MΩ min (100 VDC)
Part Ordering Information:
A: Product Family
B: XXX = Frequency Code
C: YYYY = Specification Code
GB/GG XXX YYYY
Following the above format, Saronix-eCera part numbers will be assigned upon
confirmation of exact customer requirements.
Legacy Ordering Information - For Reference Only:
49S
XXX
–
XX
XXX
X
(X)
(Q) = Manufactured in a TS16949 or QS9000
Type
registered facility
–E (dash E) = Lead (Pb)-free RoHS Compliant Version
Blank = Non-RoHS (not available for new designs)
Frequency (MHz)
Frequency (in MHz) = 0x.xxxx, xx.xxxx
(a zero is used in front of frequencies
under 10 MHz)
Calibration / Stability / Temp Range
GGC = ±30ppm / ±30ppm / -20 to +70°C
GHE = ±30ppm / ±50ppm / -40 to +85°C
HJE = ±50ppm / ±100ppm / -40 to +85°C
* others available
CUT TYPE:
– (dash) = AT-cut Parallel Resonance
Blank = AT-cut Series Resonance
B = BT-cut, 26.8 to 50 MHz
Load Capacitance
xx = Parallel Resonance (specify load)
Blank = Series Resonance
Part Number Example:
Freq 5.1234MHz, ±30ppm calib, ±30ppm stab, -20 to +70°C, 16pF = 49S05.1234-16GGC = 49S05.1234-16GGC–E (for lead-free)
SaRonix-eCera™ is a Pericom® Semiconductor company
•
US: +1-408-435-0800 TW: +886-3-4518888
•
All specifications are subject to change without notice.
www.saronix-ecera.com
GB/GG REV2008_OCT08_01.4
2
Quartz Crystal Metal Can (TH)
GB GG
GB/GG Series Quartz Crystal
Legacy 49S Series
Mechanical Drawings: GB Series
3.8 max
3.5 max
13.2±0.5
0.45±0.05
4.88±0.2
5.0 max
11.2 max
10.6 max
UNIT: mm
Mechanical Drawings: GG Series (Low Profile)
3.8 max
2.5 max
13.2±0.5
4.88±0.2
0.45±0.05
5.0 max
11.2 max
10.6 max
UNIT: mm
SaRonix-eCera™ is a Pericom® Semiconductor company
•
US: +1-408-435-0800 TW: +886-3-4518888
•
All specifications are subject to change without notice.
www.saronix-ecera.com
GB/GG REV2008_OCT08_01.4
3