CF5019 series
High-Frequency, 3rd Overtone Crystal Oscillator Module ICs
OVERVIEW
The CF5019 series are high-frequency, 3rd overtone crystal oscillator module ICs. They incorporate an oscillator circuit and an output buffer that operate at high frequency on a single chip. The oscillator circuit employs CMOS inverters and a built-in damping resistor RD, reducing the crystal current compared with existing devices. The damping resistor RD is fabricated using NPC’s unique high-precision thin-film resistor technology, which suppresses oscillator characteristic variations due to changes in temperature and voltage to a minimum. The CF5019 series can be utilized to construct stable, high-frequency, 3rd overtone crystal oscillators.
FEATURES
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RD built-in to reduce crystal current in the oscillator circuit 2.25 to 3.6V operating supply voltage range Recommended operating frequency range (varies with version) • 2.5V operation: 60 to 155MHz • 3.0V operation: 60 to 170MHz – 40 to 85°C operating temperature range Oscillator capacitors with excellent frequency response built-in Feedback resistors with good temperature characteristics built-in
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Standby function • High impedance in standby mode, oscillator stops Low standby current • Power-saving pull-up resistor built-in Oscillation detector function CMOS output duty level (1/2VDD) 50 ± 5% output duty (at 1/2VDD) 30pF output load (3.3V operation) Molybdenum-gate CMOS process Chip form (CF5019AL×)
APPLICATIONS
I
Crystal oscillator modules (3rd overtone oscillation)
SERIES CONFIGURATION
Recommended operating frequency range*1 [MHz] gm ratio 2.5V operation 3.0V operation CF5019ALA CF5019ALB CF5019ALC CF5019ALD CF5019ALE 60 to 80 70 to 115 105 to 135 110 to 155 90 to 125 60 to 90 80 to 125 115 to 145 135 to 170 95 to 135 0.6 0.8 1.0 1.0 0.8 Oscillator circuit constants Built-in capacitance Feedback Damping resistance resistance CG [pF] CD [pF] Rf [kΩ] RD [Ω] 4 3 1 1 2 7 3 3 5 7 2.5 4.5 3.3 2.2 3.3 200 57 57 57 57 CMOS Yes High impedance INHN input level Standby mode Oscillator stop function Output state
Version
*1.The recommended operating frequency is a yardstick value derived from the crystal used for NPC characteristics authentication. However, the oscillator frequency band is not guaranteed. Specifically, the characteristics can vary greatly due to crystal characteristics and mounting conditions, so the oscillation characteristics of components must be carefully evaluated.
ORDERING INFORMATION
Device CF5019AL×–2 Package Chip form
SEIKO NPC CORPORATION —1
CF5019 series
PAD LAYOUT
(Unit: µm)
(900,1050) VDD Q
Y
HA5019 NPC
VSS
INHN (0,0) XT XTN X
Chip size: 0.9 × 1.05mm Chip thickness: 220µm ± 30µm PAD size: 90µm Chip base: VDD level
PIN DESCRIPTION and PAD DIMENSIONS
Pad dimensions [µm] Name I/O Description X INHN XT XTN VSS Q VDD I I O – O – Output state control input. High impedance when LOW (oscillator stops). Power-saving pull-up resistor built-in. Amplifier input Amplifier output (–) ground Output (+) supply voltage Crystal connection pins. Crystal is connected between XT and XTN. 144.6 347.8 560.6 755.4 755.4 151.4 Y 190.6 171 171 497.8 905.4 918.2
BLOCK DIAGRAM
VDD VSS XTN
CG Rf 1 Cf CD
RD
XT
Rf 2
Q
INHN
INHN = LOW active
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CF5019 series
SPECIFICATIONS
Absolute Maximum Ratings
VSS = 0V
Parameter Supply voltage range Input voltage range Output voltage range Operating temperature range Storage temperature range Output current Symbol VDD VIN VOUT Topr TSTG IOUT Condition Rating −0.5 to +7.0 −0.5 to VDD + 0.5 −0.5 to VDD + 0.5 −40 to +85 −65 to +150 25 Unit V V V °C °C mA
Recommended Operating Conditions
CF5019ALA, CF5019ALB
3V Operation
VSS = 0V
Rating Parameter Symbol Condition min CL ≤ 15pF Operating supply voltage VDD f ≤ 125MHz CL ≤ 30pF 2.7 3.0 2.7*1 VSS −40 typ – – – – – max 3.6 3.6 3.6*1 VDD +85 V V V V °C Unit
Input voltage Operating temperature
VIN TOPR
*1. The output duty cycle variability increases than other conditions.
2.5V Operation
VSS = 0V
Rating Parameter Symbol f ≤ 106MHz Operating supply voltage VDD f ≤ 70MHz f ≤ 125MHz Input voltage Operating temperature VIN TOPR Condition min CL ≤ 15pF CL ≤ 30pF CL ≤ 15pF 2.25 2.25 2.25*1 VSS −40 typ – – – – – max 2.75 2.75 2.75*1 VDD +85 V V V V °C Unit
*1. The output duty cycle variability increases than other conditions.
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CF5019 series CF5019ALC, CF5019ALD, CF5019ALE
3V Operation
VSS = 0V
Rating Parameter Symbol f ≤ 170MHz f ≤ 125MHz Condition min Operating supply voltage Input voltage Operating temperature VDD VIN TOPR CL ≤ 15pF CL ≤ 30pF 2.7 2.7 VSS −40 typ – – – – max 3.6 3.6 VDD +85 V V V °C Unit
2.5V Operation
VSS = 0V
Rating Parameter Operating supply voltage Input voltage Operating temperature Symbol VDD VIN TOPR f ≤ 155MHz Condition min CL ≤ 15pF 2.25 VSS −40 typ – – – max 2.75 VDD +85 V V °C Unit
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CF5019 series
Electrical Characteristics
2.5V operation VDD = 2.25 to 2.75V, VSS = 0V, Ta = −40 to +85°C unless otherwise noted.
Parameter HIGH-level output voltage LOW-level output voltage HIGH-level input voltage LOW-level input voltage Output leakage current Symbol VOH VOL VIH VIL IZ Condition Q: Measurement cct 1, VDD = 2.25V, IOH = 8mA Q: Measurement cct 2, VDD = 2.25V, IOL = 8mA INHN INHN Q: Measurement cct 2, INHN = LOW VOH = VDD VOL = VSS CL = 15pF f = 80MHz CL = 30pF f = 70MHz CL = 15pF f = 106MHz CL = 30pF f = 70MHz CL = 15pF f = 135MHz CL = 15pF f = 155MHz CL = 15pF f = 125MHz Rating min 1.75 – 0.7VDD – – – – – – – – – – – 2 50 CF5019ALA CF5019ALB AC feedback resistance Rf1 Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD CF5019ALE DC feedback resistance Rf2 Measurement cct 5 CF5019ALA CF5019ALB Oscillator amplifier output resistance RD Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD CF5019ALE AC feedback capacitance Cf Design value. A monitor pattern on a wafer is tested. CF5019ALA CF5019ALB CG Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD Built-in capacitance CF5019ALE CF5019ALA CF5019ALB CD Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD CF5019ALE 2.12 3.82 2.80 1.87 2.80 50 170 48.4 48.4 48.4 48.4 8.5 3.40 2.55 0.85 0.85 1.70 5.95 2.55 2.55 4.25 5.95 typ 1.95 0.3 – – – – 15 20 20 20 25 30 22 – 6 100 2.5 4.5 3.3 2.2 3.3 100 200 57 57 57 57 10 4 3 1 1 2 7 3 3 5 7 max – 0.4 – 0.3VDD 10 10 40 50 50 50 60 70 55 3 12 150 2.88 5.18 3.80 2.53 3.80 150 230 65.6 65.6 65.6 65.6 11.5 4.60 3.45 1.15 1.15 2.30 8.05 3.45 3.45 5.75 8.05 Unit V V V V µA µA mA mA mA mA mA mA mA µA MΩ kΩ kΩ kΩ kΩ kΩ kΩ kΩ Ω Ω Ω Ω Ω pF pF pF pF pF pF pF pF pF pF pF
CF5019ALA
Current consumption
IDD
Measurement cct 3, load cct 1, INHN = open
CF5019ALB
CF5019ALC CF5019ALD CF5019ALE Standby current INHN pull-up resistance IST RUP1 RUP2 Measurement cct 3, INHN = LOW Measurement cct 4
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CF5019 series 3V operation VDD = 2.7 to 3.6V, VSS = 0V, Ta = −40 to +85°C unless otherwise noted.
Parameter HIGH-level output voltage LOW-level output voltage HIGH-level input voltage LOW-level input voltage Output leakage current Symbol VOH VOL VIH VIL IZ Condition Q: Measurement cct 1, VDD = 2.7V, IOH = 8mA Q: Measurement cct 2, VDD = 2.7V, IOL = 8mA INHN INHN Q: Measurement cct 2, INHN = LOW VOH = VDD VOL = VSS CL = 15pF f = 90MHz CL = 30pF f = 90MHz CL = 15pF f = 125MHz CL = 30pF f = 125MHz CL = 15pF f = 135MHz CL = 30pF f = 125MHz CL = 15pF f = 170MHz CL = 15pF f = 135MHz Rating min 2.2 – 0.7VDD – – – – – – – – – – – – 2 50 CF5019ALA CF5019ALB AC feedback resistance Rf1 Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD CF5019ALE DC feedback resistance Rf2 Measurement cct 5 CF5019ALA CF5019ALB Oscillator amplifier output resistance RD Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD CF5019ALE AC feedback capacitance Cf Design value. A monitor pattern on a wafer is tested. CF5019ALA CF5019ALB CG Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD Built-in capacitance CF5019ALE CF5019ALA CF5019ALB CD Design value. A monitor pattern on a wafer is tested. CF5019ALC CF5019ALD CF5019ALE 2.12 3.82 2.80 1.87 2.80 50 170 48.4 48.4 48.4 48.4 8.5 3.40 2.55 0.85 0.85 1.70 5.95 2.55 2.55 4.25 5.95 typ 2.4 0.3 – – – – 20 25 25 40 30 40 40 30 – 4 100 2.5 4.5 3.3 2.2 3.3 100 200 57 57 57 57 10 4 3 1 1 2 7 3 3 5 7 max – 0.4 – 0.3VDD 10 10 50 60 60 100 70 100 100 70 5 8 150 2.88 5.18 3.80 2.53 3.80 150 230 65.6 65.6 65.6 65.6 11.5 4.60 3.45 1.15 1.15 2.30 8.05 3.45 3.45 5.75 8.05 Unit V V V V µA µA mA mA mA mA mA mA mA mA µA MΩ kΩ kΩ kΩ kΩ kΩ kΩ kΩ Ω Ω Ω Ω Ω pF pF pF pF pF pF pF pF pF pF pF
CF5019ALA
CF5019ALB Current consumption IDD Measurement cct 3, load cct 1, INHN = open CF5019ALC
CF5019ALD CF5019ALE Standby current INHN pull-up resistance IST RUP1 RUP2 Measurement cct 3, INHN = LOW Measurement cct 4
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CF5019 series
Switching Characteristics
CF5019ALA, CF5019ALB
2.5V operation
VDD = 2.25 to 2.75V, VSS = 0V, Ta = −40 to +85°C unless otherwise noted.
Rating Parameter Symbol tr1 tr2 Output fall time tf1 tf2 Duty1 Duty2 Output disable delay time*2 Output enable delay time*2 tPLZ tPZL Condition min Output rise time Measurement cct 3, load cct 1, 0.1VDD to 0.9VDD Measurement cct 3, load cct 1, 0.9VDD to 0.1VDD CL = 15pF CL = 30pF CL = 15pF CL = 30pF CL = 15pF, f = 106MHz Measurement cct 3, load cct 1, VDD = 2.5V, Ta = 25°C CL = 15pF, f = 125MHz CL = 30pF, f = 70MHz Measurement cct 6, load cct 1, VDD = 2.5V, Ta = 25°C, CL = 15pF – – – – 45 40 45 – – typ 1 2 1 2 – – – – – max 3 5.5 3 5.5 55 60 55 100 100 ns ns ns ns % % % ns ns Unit
Output duty cycle*1
*1. The duty cycle characteristic is checked the sample chips of each production lot. *2. Oscillator stop function is built-in. When INHN goes LOW, normal output stops. When INHN goes HIGH, normal output is not resumed until after the oscillator start-up time has elapsed.
3V operation
VDD = 2.7 to 3.6V, VSS = 0V, Ta = −40 to +85°C unless otherwise noted.
Rating Parameter Symbol tr1 Output rise time tr2 tf1 Output fall time tf2 Output duty cycle*1 Output disable delay time*2 Output enable delay time*2 Duty2 tPLZ tPZL Condition min Measurement cct 3, load cct 1, 0.1VDD to 0.9VDD CL = 15pF VDD = 3.0 to 3.6V CL = 30pF CL = 15pF VDD = 3.0 to 3.6V CL = 30pF – – – – 45 – – typ 1 1.5 1 1.5 – – – max 2.5 3 2.5 3 55 100 100 ns ns ns ns % ns ns Unit
Measurement cct 3, load cct 1, 0.9VDD to 0.1VDD
Measurement cct 3, load cct 1, VDD = 3.0V, Ta = 25°C, CL = 30pF, f = 125MHz Measurement cct 6, load cct 1, VDD = 3.0V, Ta = 25°C, CL = 15pF
*1. The duty cycle characteristic is checked the sample chips of each production lot. *2. Oscillator stop function is built-in. When INHN goes LOW, normal output stops. When INHN goes HIGH, normal output is not resumed until after the oscillator start-up time has elapsed.
SEIKO NPC CORPORATION —7
CF5019 series CF5019ALC, CF5019ALD, CF5019ALE
2.5V operation
VDD = 2.25 to 2.75V, VSS = 0V, Ta = −40 to +85°C unless otherwise noted.
Rating Parameter Output rise time Output fall time Output duty cycle*1 Output disable delay time*2 Output enable delay time*2 Symbol tr1 tf1 Duty1 tPLZ tPZL Condition min Measurement cct 3, load cct 1, 0.1VDD to 0.9VDD, CL = 15pF Measurement cct 3, load cct 1, 0.9VDD to 0.1VDD, CL = 15pF Measurement cct 3, load cct 1, VDD = 2.5V, Ta = 25°C, CL = 15pF, f = 155MHz Measurement cct 6, load cct 1, VDD = 2.5V, Ta = 25°C, CL = 15pF – – 45 – – typ 1 1 – – – max 3 3 55 100 100 ns ns % ns ns Unit
*1. The duty cycle characteristic is checked the sample chips of each production lot. *2. Oscillator stop function is built-in. When INHN goes LOW, normal output stops. When INHN goes HIGH, normal output is not resumed until after the oscillator start-up time has elapsed.
3V operation
VDD = 2.7 to 3.6V, VSS = 0V, Ta = −40 to +85°C unless otherwise noted.
Rating Parameter Symbol tr1 tr2 Output fall time tf1 tf2 Output duty cycle*1 Output disable delay time*2 Output enable delay time*2 Duty1 Duty2 tPLZ tPZL Condition min Output rise time Measurement cct 3, load cct 1, 0.1VDD to 0.9VDD Measurement cct 3, load cct 1, 0.9VDD to 0.1VDD Measurement cct 3, load cct 1, VDD = 3.0V, Ta = 25°C CL = 15pF CL = 30pF CL = 15pF CL = 30pF CL = 15pF, f = 170MHz CL = 30pF, f = 125MHz – – – – 45 45 – – typ 1 1.5 1 1.5 – – – – max 2.5 4 2.5 4 55 55 100 100 ns ns ns ns % % ns ns Unit
Measurement cct 6, load cct 1, VDD = 3.0V, Ta = 25°C, CL = 15pF
*1. The duty cycle characteristic is checked the sample chips of each production lot. *2. Oscillator stop function is built-in. When INHN goes LOW, normal output stops. When INHN goes HIGH, normal output is not resumed until after the oscillator start-up time has elapsed.
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CF5019 series
FUNCTIONAL DESCRIPTION
Standby Function
When INHN goes LOW, the oscillator stops and the oscillator output on Q becomes high impedance.
INHN HIGH (or open) LOW Q fO output frequency High impedance Oscillator Normal operation Stopped
Power-saving Pull-up Resistor
The INHN pull-up resistance changes in response to the input level (HIGH or LOW). When INHN goes LOW (standby state), the pull-up resistance becomes large to reduce the current consumption during standby.
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CF5019 series
MEASUREMENT CIRCUITS
Measurement cct 1 Measurement cct 4
Signal Generator
C1 XT R1 XTN INHN
VDD Q VSS R2
XT XTN INHN
VDD Q VSS RUP1 = VDD IPR (VPR = V SS)
V
VPR VDD VOH 0V IPR
RUP2 = VDD VPR IPR (VPR = 0.7VDD)
A
Q output
2Vp-p, 10MHz sine wave input signal C1: 0.001µF R1: 50Ω R2: 219Ω (2.5V operation) 275Ω (3.0V operation)
Measurement cct 5
Measurement cct 2
XT IZ, IOL XT XTN INHN VDD Q VSS IZ XTN INHN VSS VDD Q Rf = VDD IRf
A A V
VOH VOL IRf
Measurement cct 6 Measurement cct 3
Signal Generator A
XT X'tal XTN INHN VSS VDD Q IDD IST C1 XT R1 XTN INHN VDD Q VSS
2Vp-p, 10MHz sine wave input signal C1: 0.001µF R1: 50Ω
Load cct 1
Q output CL
(Including probe capacitance)
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CF5019 series
Switching Time Measurement Waveform
Output duty level, tr, tf
Q output
0.9VDD 0.1VDD TW
0.9VDD 0.1VDD
DUTY measurement voltage (0.5V DD )
tr
Output duty cycle
tf
Q output
TW T
DUTY measurement voltage (0.5V DD) DUTY= TW/ T 100 (%)
Output Enable/Disable Delay
when the device is in standby, the oscillator stops. When standby is released, the oscillator starts and stable oscillator output occurs after a short delay.
INHN
VIL
VIH
tPLZ Q output
INHN input waveform tr = tf
tPZL
10ns
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CF5019 series
Please pay your attention to the following points at time of using the products shown in this document. The products shown in this document (hereinafter “Products”) are not intended to be used for the apparatus that exerts harmful influence on human lives due to the defects, failure or malfunction of the Products. Customers are requested to obtain prior written agreement for such use from SEIKO NPC CORPORATION (hereinafter “NPC”). Customers shall be solely responsible for, and indemnify and hold NPC free and harmless from, any and all claims, damages, losses, expenses or lawsuits, due to such use without such agreement. NPC reserves the right to change the specifications of the Products in order to improve the characteristic or reliability thereof. NPC makes no claim or warranty that the contents described in this document dose not infringe any intellectual property right or other similar right owned by third parties. Therefore, NPC shall not be responsible for such problems, even if the use is in accordance with the descriptions provided in this document. Any descriptions including applications, circuits, and the parameters of the Products in this document are for reference to use the Products, and shall not be guaranteed free from defect, inapplicability to the design for the mass-production products without further testing or modification. Customers are requested not to export or re-export, directly or indirectly, the Products to any country or any entity not in compliance with or in violation of the national export administration laws, treaties, orders and regulations. Customers are requested appropriately take steps to obtain required permissions or approvals from appropriate government agencies.
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