Manufacturers
EPSON TOYOCOM CORP. SG-531P 4.9152MC
Description
OSCILLATOR 4.9152MHZ PDIP
Part Number
SG-531P 4.9152MC
Price
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Manufacturer
EPSON TOYOCOM CORP.
Lead Time
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Category
PRODUCTS - S
Datasheet
Extracted Text
Crystal oscillator FULL-SIZE DIP HIGH-FREQUENCY CRYSTAL OSCILLATOR SG-51 series HALF-SIZE DIP HIGH-FREQUENCY CRYSTAL OSCILLATOR SG-531 series Product number (please refer to page 1) Q325 10xxxxxxx00 SG-51 SG-531 Q325 31xxxxxxx00 • Pin compatible with full-size metal can. (SG-51 series) Actual size • Pin compatible with half-size metal can. (SG-531 series) • Cylindrical AT-cut crystal unit builtin, thus assuring high reliability. • Use of CMOS IC enables reduction of current consumption. Specifications Symbol Remarks Item SG-51P/531P SG-51PTJ/531PTJ SG-51PH/531PH 1.0250 MHz to Refer to page 31. "Frequency range" 26.0001 MHz to 66.6667 MHz Output frequency range f0 26.0000 MHz -0.3 V to +7.0 V -0.5 V to +7.0 V Max. supply voltage VDD-GND Power source voltage Operating voltage 5.0 V±0.5 V VDD Storage temperature TSTG -55 °C to +125 °C Stored as bare product after unpacking Temperature range Operating temperature TOPR Refer to page 31. "Frequency range" -20 °C to +70 °C (-40 °C to +85 °C) -6 B: ± 50 x10 Frequency stability ∆f/f0 B type is possible up to 55.0 MHz -6 C: ±100 x10 Iop No load condition Current consumption 23 mA Max. 35 mA Max. IOE OE=GND Output disable current 12 mA Max. 28 mA Max. 20 mA Max. 1/2 VDD level 40 % to 60 % — 40 % to 60 % CMOS level tw/t Duty 45 % to 55 % — 1.4 V level TTL level VOH VDD-0.4 V Min. 2.4 V Min. VDD -0.4 V Min. IOH = -400 µA (P,PTJ) /-4 mA (PH) Output voltage IOL = 16 mA (P) / 8 mA (PTJ) / 4mA (PH) VOL 0.4 V Max. CMOS CL 50 pF Max. — 50 pF Max. Output load condition (fan out) TTL N 10 TTL Max. 5 TTL Max. — CL≤15 pF VIH 2.0 V Min. 3.5 V Min. 2.0 V Min. IIH=1 µA Max. (OE=VDD) Output enable/disable input voltage VIL 0.8 V Max. 1.5 V Max. 0.8 V Max. IIL= -100 µA Min. (OE=GND), PTJ: IIL = -500 µA Min. (OE=GND) CMOS load: 20 %→80 % VDD CMOS level — 7 ns Max. Output tTLH 8 ns Max. rise time TTL load: 0.4 V→2.4 V TTL level 5 ns Max. — CMOS level CMOS load: 80 %→20 % VDD Output — 7 ns Max. tTHL 8 ns Max. fall time TTL level TTL load: 2.4 V→0.4 V 5 ns Max. — More than for 1 ms until VDD =0 V→4.5 V Oscillation start up time tOSC 4 ms Max. 10 ms Max. Time at 4.5 V to be 0 s -6 Aging fa ±5 x 10 /year Max. Ta=+25 °C, VDD =5 V,first year Three drops on a hard board from 750 mm or 2 -6 Shock resistance S.R. excitation test with 29400 m/s x 0.3 ms x 1/2 ±20 x 10 Max. sine wave in 3 directions Note: • Unless otherwise stated, characteristics (specifications) shown in the above table are based on the rated operating temperature and voltage condition. • External by-pass capacitor is recommended. (Unit: mm) 19.8 Max. 13.7 Max. Pin terminal Pin terminal NO. NO. #14 #8 #8 #5 1 OE or ST 1 OE 4 GND 7 GND 5 OUT 8 OUT "!""""# 8 VDD 14 VDD !""""#$% 7.62 #1 #7 7.62 #1 #4 0.25 0.25 0.51 90° to 90° to 0.51 105° 105° 15.24 7.62 Note. OE Pin (P, PTJ, PH, PTW, PHW, PCW) ST pin (STW, SHW, SCW) OE pin - "H" or "open" : Specified frequency output. ST pin - "H" or "open" : Specified frequency output. OE pin - "L" : Output is high impedance. ST pin - "L" : Output is low level (weak pull - down), oscillation stops. 45 2.54 Min. 5.3 Max. 6.36 0.2 Min. 2.54 Min. 5.3 Max. 6.6 0.2 Min. Crystal oscillator Specifications Item Symbol Remarks SG-531PCG SG-531SCG Output frequency range fO 1.5000 MHz to 26.0000 MHz Refer to page 31. "Frequency range" Max. supply voltage Power source VDD-GND -0.5 V to +7.0 V voltage Operating voltage VDD 2.7 V to 3.6 V Temperature Storage temperature TSTG Stored as bare product after unpacking -55 °C to +125 °C Operating temperature range TOPR Refer to page 31. "Frequency range" -40 °C to +85 °C -6 -6 -20 °C to +70 °C B : ±50 x 10 C : ±100 x 10 Frequency stability ∆f/f0 -6 M : ±100 x 10 -40 °C to +85 °C 12 mA Max. No load condition Current consumption IOP 10 mA Max. — OE=GND (PCG) Output disable current IOE — 50 µA Max. ST=GND (SCG) Standby current IST Duty tw/t 45 % to 55 % 50 % VDD, CL = 25 pF VOH VDD -0.4 V Min. IOH = -8 mA Output voltage VOL 0.4 V Max. IOL = 8 mA Output load condition (fan out) CL 25 pF OE, ST VIH 70 % VDD Min. Output enable disable input voltage OE, ST VIL 20 % VDD Max. Output rise time tTLH 4.0 ns Max. 20 % to 80 % VDD, CL ≤ 25 pF Output fall time tTHL 4.0 ns Max. 80 % to 20 % VDD CL ≤ 25 pF Oscillation start up time tOSC 12 ms Max. Time at minimum operating voltage to be 0 s -6 Aging fa ±5 x 10 / year Max. Ta=+25 °C, VDD =3.3 V, First year Three drops on a hard board from 750 mm or -6 Shock resistance S.R. excitation test with 29400 m/s2 x 0.3 ms x 1/2 ±20 x 10 Max. sine wave in 3 directions Specifications Item Symbol Remarks SG-531PTW/STW SG-531PHW/SHW SG-531PCW/SCW Output frequency range fO 55.0001 MHz to 135.0000 MHz 26.0001 MHz to 135.0000 MHz Refer to page 31. "Frequency range" Power source Max. supply voltage VDD-GND -0.5 V to +7.0 V voltage Operating voltage VDD 5.0 V ± 0.5 V 3.3 V ± 0.3 V Temperature Storage temperature TSTG -55 °C to +100 °C Stored as bare product after unpacking range Operating temperature TOPR Refer to page 31. "Frequency range" -20 °C to +70 °C -40 °C to +85 °C -6 -6 -20 °C to +70 °C B : ±50 x 10 C : ±100 x 10 Frequency stability ∆f/f0 -6 -40 °C to +80 °C —M : ±100 x 10 Current consumption IOP 45 mA Max. 28 mA Max. No load condition Output disable current IOE 30 mA Max. 16 mA Max. OE=GND(P∗W) IST Standby current 50 µA Max. ST=GND(S∗W) 40 % to 60 % — — TTL load : 1.4 V, CL = Max. 45 % to 55 % — — TTL load : 1.4 V, 5TTL + 15 pF, fo ≤ 66.6667 MHz tw/t Duty — 40 % to 60 % 40 % to 60 % CMOS load : 50% VDD, CL = Max. — 45 % to 55% — CMOS load : 50% VDD, CL = 25 pF, fo ≤ 66.6667 MHz CMOS load : 50% VDD, CL = 25 pF, fo ≤ 40.0 MHz —— 45 % to 55% VOH IOH= -16 mA (∗TW/∗HW)/-8 mA(∗CW) VDD -0.4 V Min. Output voltage VOL IOL= 16 mA (∗TW/∗HW)/8 mA(∗CW) 0.4 V Max. 15 pF — — fo ≤ 135 MHz 5 TTL + 15 pF — — fo ≤ 90 MHz 25 pF — — fo ≤ 66.6667 MHz CL Output load condition (fan out) — 15 pF 15 pF fo ≤ 135 MHz — 25 pF — fo ≤ 125 MHz — 50 pF — fo ≤ 66.6667MHz —— 30 pF fo ≤ 40.0 MHz OE,ST VIH 2.0 V Min. 0.7 VDD Min. Output enable disable input voltage OE,ST VIL 0.8 V Max. 0.2 VDD Max. TTL load: 0.8 V→2.0 V, CL = Max. 2.0 ns Max. — — 4.0 ns Max. — — TTL load: 0.4 V→2.4 V, CL = Max. tTLH — 3.0 ns Max. — CMOS load: 20 %→80 % VDD, CL= 25 pF Output rise time —— 3.0 ns Max. CMOS load: 20 %→80 % VDD, CL= 15 pF — 4.0 ns Max. 4.0 ns Max. CMOS load: 20 %→80 % VDD, CL= Max. 2.0 ns Max. — — TTL load: 2.0 V→0.8 V, CL = Max. 4.0 ns Max. — — TTL load: 2.4 V→0.4 V, CL = Max. tTHL — 3.0 ns Max. — CMOS load: 80 %→20 % VDD, CL= 25 pF Output fall time CMOS load: 80 %→20 % VDD, CL= 15 pF —— 3.0 ns Max. CMOS load: 80 %→20 % VDD, CL= Max. — 4.0 ns Max. 4.0 ns Max. Time at minimum operating voltage to be 0 s Oscillation start up time tOSC 10 ms Max. -6 ±5 x 10 /year Max. Ta=+25 °C, VDD =5.0 V / 3.3 V, First year Aging fa Three drops on a hard board from 750 mm or -6 Shock resistance S.R. ±20 x 10 Max. excitation test with 29400 m/s2 x 0.3 ms x 1/2 sine wave in 3 directions 46
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What they say about us
FANTASTIC RESOURCE
One of our top priorities is maintaining our business with precision, and we are constantly looking for affiliates that can help us achieve our goal. With the aid of GID Industrial, our obsolete product management has never been more efficient. They have been a great resource to our company, and have quickly become a go-to supplier on our list!
Bucher Emhart Glass
EXCELLENT SERVICE
With our strict fundamentals and high expectations, we were surprised when we came across GID Industrial and their competitive pricing. When we approached them with our issue, they were incredibly confident in being able to provide us with a seamless solution at the best price for us. GID Industrial quickly understood our needs and provided us with excellent service, as well as fully tested product to ensure what we received would be the right fit for our company.
Fuji
HARD TO FIND A BETTER PROVIDER
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Applied Materials
CONSISTENTLY DELIVERS QUALITY SOLUTIONS
Over the years, the equipment used in our company becomes discontinued, but they’re still of great use to us and our customers. Once these products are no longer available through the manufacturer, finding a reliable, quick supplier is a necessity, and luckily for us, GID Industrial has provided the most trustworthy, quality solutions to our obsolete component needs.
Nidec Vamco
TERRIFIC RESOURCE
This company has been a terrific help to us (I work for Trican Well Service) in sourcing the Micron Ram Memory we needed for our Siemens computers. Great service! And great pricing! I know when the product is shipping and when it will arrive, all the way through the ordering process.
Trican Well Service
GO TO SOURCE
When I can't find an obsolete part, I first call GID and they'll come up with my parts every time. Great customer service and follow up as well. Scott emails me from time to time to touch base and see if we're having trouble finding something.....which is often with our 25 yr old equipment.
ConAgra Foods