Diodes Incorporated 的 PT7C5028B, C 规格书

"mm Tami-c.
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PT0350(02/11) 1 Ver:0
Data Sheet
PT7C5028B/5028C series
Cr
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Features
Wide range of operating supply voltage: 1.5V to
3.6V
Optimized low crystal drive current oscillation for
miniature crystal units
PT7C5028BxDE series: for Wire Bonding (type )
PT7C5028CxDE series: for Wire Bonding (type )
Recommended oscillation frequency range
¾ Low frequency version: 20MHz to 60MHz
Multi-stage frequency divider for low-frequency
output support: 0.75MHz(min)
Frequency divider built-in:
¾ Selectable by version: f0, f0/2, f0/4, f0/8,
f0/16, f0/32, f0/64
-40 to 85 operating temperature range
Standby function
¾ High impedance in standby mode, oscillator
stops
¾ CMOS output duty level(1/2VDD)
50±5% output duty
15pF output drive capability
Die form and Wafer form
Description
The PT7C5028B/C series are miniature crystal
oscillator module ICs. The pad layouts are selective
from 2 types depending on package structures,
mounting methods, which are suitable for miniature
crystal oscillators. The PT7C5028B/C series can be
used to realize ultra miniature, ultra low voltage crystal
oscillators.
Ordering Information
Part no. Package type
PT7C5028Bx-5GDE Die form
PT7C5028Bx-5GWF Wafer form
PT7C5028Bx-6GDE Die form
PT7C5028Bx-6GWF Wafer form
PT7C5028Cx-5GDE Die form
PT7C5028Cx-5GWF Wafer form
PT7C5028Cx-6GDE Die form
PT7C5028Cx-6GWF Wafer form
Note: 1.“x” shows the different function. See below
description.
2. “-5G” show the die thickness is 130±15µm without
coating “-6G” show the die thickness is
100±10µm without coating.
Applications
Used for crystal oscillator
Series Configuration
Table 1 Part No suffix description
Part No Pad Layout Type
PT7C5028Bx Wire Bonding (type I)
PT7C5028Cx Wire Bonding (type II)
Prmmrmm \Dl) UNI) LT; HIV")! k Q
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PT0350(02/11) 2 Ver:0
Data Sheet
PT7C5028B/5028C series
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Table 2 Part No suffix description
Standby mode
Part No
Operating
supply
voltage
range(V)
Oscillation
mode
Recommended
oscillation
frequency
range*1(MHz)
Output
frequency
Output
drive
capability
(mA) Oscillator
stop function Output
state
PT7C5028B1/C1 f0*2
PT7C5028B2/C2 f0/2
PT7C5028B3/C3 f0/4
PT7C5028B4/C4 f0/8
PT7C5028B5/C5 f0/16
PT7C5028B6/C6 f0/32
PT7C5028B7/C7
1.5 to 3.6 Fundamental 20 to 60
f0/64
4 Yes Hi-Z
Note: * 1. The recommended operating frequency is a yardstick value derived from the crystal used for PTI 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.
* 2. f0 is oscillation frequency (input frequency).
Block Diagram
Function Description
Standby Function
When INHN goes LOW, the oscillator stops and the oscillator output on Q becomes high impedance.
INHN Q Oscillator
HIGH (or open) f0 output frequency Normal operation
Low High impedance Stopped
Prmmrmm Crv SW D Sensor D Q GND |:| VDD INHN MN El XTN XT XT \LI' Cl PT7C50283X PT7C5028CX Pad Coordinate File Pad Name X Coordinate Y Coordinaic Pad Name X Coordinate Y C ocnoor .40 650.00 1 79.00 79.00 4 531.00 2 53 l .00 79.00 5 79.00 3 53 l .00 282.31 6 79.00 Note: Subsiraic is connected (0 (END. Die Size: 690pm*690}im (Including scribe lmc size sonnnxonni.) Die Thickness: izonmiisnm and lUUpmilUpm without coating. Pad Size: gonniwonin Pad Description Sym. Type Description XTN 0 Amplifier output. . . . , . XT I Amplifier mpu‘. (.l’yfldl melllator connected between XT and XTN [NHN I Output stale control mpul. High impedance when LOW. Pewersaviiig pullrup in. VDD P Supply voltage GND F Ground 0 Output. Output frequency determined by inlcmul circuit to one of Q fOJU’2.f0,4,f0/8,i0/16,fU’32.fU, b4 PT0350(02/l l)
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PT0350(02/11) 3 Ver:0
Data Sheet
PT7C5028B/5028C series
Cr
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Power-saving Pull-up Resistor
The INHN pin pull-up resistance RUP1 or RUP2 changes in response to the input level (HIGH or LOW). When INHN is tied LOW
level, the pull-up resistance is large (RUP1), reducing the current consumed by the resistance. When INHN is left open circuit, the
pull-up resistance is small (RUP2), which increases the input susceptibility to external noise. However, the pull-up resistance ties
the INHN pin HIGH level to prevent external noise from unexpectedly stopping the output.
Oscillation Detector Function
The PT7C5028B/C series also feature an oscillation detector circuit. This circuit functions disable the outputs until the oscillator
circuit starts and oscillation becomes stable. This alleviates the danger of abnormal oscillator output at oscillator start-up when
power is applied or when INHN is switched.
Pad Configuration
PT7C5028Bx PT7C5028Cx
Pad Coordinate File
Pad Name X Coordinate Y Coordinate Pad Name X Coordinate Y Coordinate
sensor -40 650.00
1 79.00 79.00 4 531.00 530.99
2 531.00 79.00 5 79.00 530.99
3 531.00 282.31 6 79.00 282.31
Note: Substrate is connected to GND.
Die Size: 690µm*690µm (Including scribe line size 80µm*80µm.)
Die Thickness: 130µm±15µm and 100µm±10µm without coating.
Pad Size: 90µm*90µm
Pad Description
Sym. Type Description
XTN O Amplifier output.
XT I Amplifier input. Crystal oscillator connected between XT and XTN
INHN I
Output state control input. High impedance when LOW. Power-saving pull-up resistor built
in.
VDD P Supply voltage
GND P Ground
Q O
Output. Output frequency determined by internal circuit to one of
f0,f0/2,f0/4,f0/8,f0/16,f0/32,f0/64
6
4
3
21
5 Q GND
VDD
XTN XT
INHN
Senso
r
6
4
3
2 1
5VDD Q
INHN
XT XTN
GND
Senso
r
Part No Part No
Prmmrmm Cry , 65°C to +1500
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PT0350(02/11) 4 Ver:0
Data Sheet
PT7C5028B/5028C series
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Maximum Ratings
Storage Temperature ................................................................................- 65oC to +150oC
Supply Voltage range...................................................................................- 0.5V to +4.0V
Input voltage range ........................................................................ -0.5V to VDD +0.5V
Output voltage range ................................................................... -0.5V to VDD +0.5V
Recommended Operating Conditions
Sym. Parameter Conditions Min Typ Max Unit
VDD Supply voltage CL15pF 1.5 - 3.6 V
VIN Input voltage Input pins GND - VDD V
TA Operating temperature - -40 +25 +85 °C
f0 Oscillation frequency*1 - 20 - 60 MHz
fOUT Output frequency CL15pF 0.75 - 60 MHz
Note:* 1. The recommended oscillation frequency is a yardstick value derived from the crystal used for PTI characteristics authentication.
However, the oscillation frequency range 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.
Note:
Stresses greater than those listed under MAXIMUM
RATINGS may cause permanent damage to the
device. This is a stress rating only and functional
operation of the device at these or any other condi-
tions above those indicated in the operational sec-
tions of this specification is not implied. Exposure to
absolute maximum rating conditions for extended
periods may affect reliability.
"mm Tami-c. m) T.\
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PT0350(02/11) 5 Ver:0
Data Sheet
PT7C5028B/5028C series
Cr
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DC Electrical Characteristics
VDD=1.5 to 3.6V, TA=-40 to 85 unless otherwise noted
Rating
Parameter Sym Conditions Min Typ Max
Unit
HIGH-level output voltage VOH Q: Measurement cct3, IOH=4mA VDD-0.4 - - V
LOW-level output voltage VOL Q: Measurement cct3, IOL=4mA - - 0.4 V
HIGH-level input voltage VIH INHN, Measurement cct4 0.7VDD - - V
LOW-level input voltage VIL INHN, Measurement cct4 - - 0.3VDD V
VOH =VDD - - 20
µA
Output leakage current IZ
Q: Measurement
cct5,
IHNH=LOW VOL=GND 20 - -
µA
VDD =3.3V - 1.6 2.4 mA
VDD =2.5V - 1.3 2.0 mA
5028×1(f0),no load
INHN=open,f0=48MHz
fOUT=48MHz VDD =1.8V - 1.0 1.5 mA
VDD =3.3V - 1.5 2.3 mA
VDD =2.5V - 1.2 1.8 mA
Measurement cct 1,
5028×2(f0/64),no load
INHN=open,f0=48MHz
fOUT=24MHz VDD =1.8V - 0.9 1.4 mA
VDD =3.3V - 1.3 2.0 mA
VDD =2.5V - 1.0 1.5 mA
Measurement cct 1,
5028×3(f0/64),no load
INHN=open,f0=48MHz
fOUT=12MHz VDD =1.8V - 0.8 1.2 mA
VDD =3.3V - 1.1 1.7 mA
VDD =2.5V - 0.9 1.4 mA
Measurement cct 1,
5028×4(f0/64),no load
INHN=open,f0=48MHz
fOUT=6MHz VDD =1.8V - 0.75 1.15 mA
VDD =3.3V - 1.05 1.6 mA
VDD =2.5V - 0.85 1.3 mA
Measurement cct 1,
5028×5(f0/64),no load
INHN=open,f0=48MHz
fOUT=3MHz VDD =1.8V - 0.7 1.1 mA
VDD =3.3V - 1.0 1.5 mA
VDD =2.5V - 0.85 1.3 mA
Measurement cct 1,
5028×6(f0/64),no load
INHN=open,f0=48MHz
fOUT=1.5MHz VDD =1.8V - 0.7 1.1 mA
VDD =3.3V - 1.0 1.5 mA
VDD =2.5V - 0.85 1.3 mA
Current consumption IDD
Measurement cct 1,
5028×7(f0/64),no load
INHN=open,f0=48MHz
fOUT=0.94MHz VDD =1.8V - 0.7 1.1 mA
Standby current IST Measurement cct1, INHN=LOW - - 10
µA
RUP1 0.4 1.5 8 M
INHN pull-up resistance RUP2 Measurement cct6 30 70 150 K
Oscillator feedback resistance Rf - 50 100 200 K
CG 4.8 6 7.2 pF
Oscillator capacitance CD
Design value(a monitor pattern on a
wafer is tested), Excluding parasitic
capacitance 8 10 12
pF
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PT0350(02/11) 6 Ver:0
Data Sheet
PT7C5028B/5028C series
Cr
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AC Electrical Characteristics
VDD=1.5 to 3.6V, TA=-40 to 85 unless otherwise noted
Rating
Parameter Symbol Condition Min Type Max Unit
tr1
Measurement cct1,
CL=15pF,
0.1VDD to 0.9VDD
VDD=2.0 to 3.6 V - 1.3 3.0 ns
Output rise time
tr2
Measurement cct1,
CL=15pF,
0.2VDD to 0.8VDD
VDD=1.5 to 2.0 V - 1.3 3.0 ns
tf1
Measurement cct1,
CL=15pF,
0.9VDD to 0.1VDD
VDD=2.0 to 3.6 V - 1.3 3.0 ns
Output fall time
tf2
Measurement cct1,
CL=15pF,
0.8VDD to 0.2VDD
VDD=1.5 to 2.0 V - 1.3 3.0 ns
Output duty cycle Duty Measurement cct 1, TA=25,CL=15pF 45 50 55 %
Output disable delay time tOD Measurement cct 1, TA=25,CL15pF - - 50
µS
Timing chart
Figure 1: Output switching waveform
Figure 2: Output disable and oscillation start timing chart
When INHN goes HIGH to LOW, the Q output goes HIGH once and then becomes high impedance.
When INHN goes LOW to HIGH, the Q output from high impedance to normal output operation when the oscillation
starts(oscillation is detected)
*) the high –impedance interval in the figure is shown as a LOW level due to the 1K pull-down resistor connected to the Q
pin(see “Measurement circuit 2”in the “Measurement circuits” section)
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PT0350(02/11) 7 Ver:0
Data Sheet
PT7C5028B/5028C series
Cr
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Measurement Circuit
Prmmrmm WTMM
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PT0350(02/11) 8 Ver:0
Data Sheet
PT7C5028B/5028C series
Cr
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Notes
Email: support@pti.com.cn Web Site: www.pti.com.cn, www.pti-ic.com
China: No. 20 Building, 3/F, 481 Guiping Road, Shanghai, 200233, China
Tel: (86)-21-6485 0576 Fax: (86)-21-6485 2181
Asia Pacific: Unit 1517, 15/F, Chevalier Commercial Centre, 8 Wang Hoi Rd, Kowloon Bay, Hongkong
Tel: (852)-2243 3660 Fax: (852)- 2243 3667
U.S.A.: 3545 North First Street, San Jose, California 95134, USA
Tel: (1)-408-435 0800 Fax: (1)-408-435 1100
Pericom Technology Incorporation reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or
performance and to supply the best possible product. Pericom Technology does not assume any responsibility for use of any circuitry described other than the
circuitry embodied in Pericom Technology product. The company makes no representations that circuitry described herein is free from patent infringement or
other rights, of Pericom Technology Incorporation.