MICREL SY89231UMG

SY89231U
3.2GHz Precision, LVDS ÷3, ÷5 Clock Divider
General Description
The SY89231U is a precision, low jitter 3.2GHz ÷3,
÷5 clock divider with a LVDS output. The differential
input includes Micrel’s unique, 3-pin internal
termination architecture that allows the input to
interface to any differential signal (AC- or DCcoupled) as small as 100mV (200mVPP) without any
level shifting or termination resistor networks in the
signal path. The outputs are 325mV, 100Kcompatible LVDS with fast rise/fall times guaranteed
to be less than 200ps.
The SY89231U operates from a 2.5V ±5% supply
and is guaranteed over the full industrial
temperature range of –40°C to +85°C. The
SY89231U is part of Micrel’s high-speed, Precision
®
Edge product line.
All support documentation can be found on Micrel’s
web site at: www.micrel.com.
Block Diagram
Precision Edge
®
Features
• Accepts a high-speed input and provides a precision
÷3 and ÷5 sub-rate, LVDS output
• Guaranteed AC performance over temperature and
supply voltage:
– DC-to >3.2GHz throughput
– <810ps Propagation Delay (In-to-Q)
– <200ps Rise/Fall times
• Ultra-low jitter design:
– <1psRMS random jitter
– <1psRMS cycle-to-cycle jitter
– <10psPP total jitter (clock)
– <0.7psRMS MUX crosstalk induced jitter
• Unique patented internal termination and VT pin
accepts DC- and AC-coupled inputs (CML, PECL,
LVDS)
• Wide input voltage range VCC to GND
• 325mV LVDS output
• 45% to 55% Duty Cycle (÷ 3)
• 47% to 53% Duty Cycle (÷ 5)
• 2.5V ±5% supply voltage
• -40°C to +85°C industrial temperature range
• Available in 16-pin (3mm x 3mm) QFN package
Applications
• Fail-safe clock protection
Markets
•
•
•
•
LAN/WAN
Enterprise servers
ATE
Test and measurement
Precision Edge is a registered trademark of Micrel, Inc.
.
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • http://www.micrel.com
November 2007
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SY89231U
Ordering Information(1)
Part Number
Package
Type
Operating
Range
SY89231UMG
QFN-16
QFN-16
(2)
SY89231UMGTR
Package Marking
Lead
Finish
Industrial
231U with
Pb-Free bar-line Indicator
NiPdAu
Pb-Free
Industrial
231U with
Pb-Free bar-line Indicator
NiPdAu
Pb-Free
Notes:
1. Contact factory for die availability. Dice are guaranteed at TA = 25°C, DC Electricals Only.
2. Tape and Reel.
Pin Configuration
16-Pin QFN
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Pin Description
Pin Number
Pin Name
Pin Function
IN, /IN
Differential Input: This input pair is the differential signal input to the device,
which accepts AC- or DC-coupled signal as small as 100mV. The input internally
terminates to a VT pin through 50Ω. Note that this input pair will default to an
indeterminate state if left open. See “Input Interface Applications” subsection for
more details.
VT
Input Termination Center-Tap: Each side of the differential input pair terminates
to the VT pin. The VT pin provides a center-tap for the input (IN, /IN) to a
termination network for maximum interface flexibility. See “Input Interface
Applications” subsection for more details.
VREF-AC
Reference Voltage: This output biases to VCC–1.2V. It is used for AC-coupling
inputs IN and /IN. Connect VREF-AC directly to the VT pin. Bypass with 0.01µF
low ESR capacitor to VCC. Due to limited drive capability, the VREF-AC pin is
only intended to drive its respective VT pin. Maximum sink/source current is
±0.5mA. For more details, see “Input Interface Applications” subsection.
EN
Single-ended Input: This TTL/CMOS-compatible input disables and enables the
output. It is internally connected to a 25kΩ pull-up resistor and will default to a
logic HIGH state if left open. When disabled, Q goes LOW and /Q goes HIGH.
EN being synchronous, outputs will be enabled/disabled after a rising and a
falling edge of the input clock. VTH = VCC/2.
6
/MR
Single-ended Input: This TTL/CMOS-compatible input, when pulled LOW,
asynchronously sets Q output LOW and /Q output HIGH. Note that this input is
internally connected to a 25kΩ pull-up resistor and will default to logic HIGH
state if left open. VTH = VCC/2.
7
NC
No Connect
8, 13
VCC
Positive Power Supply: Bypass with 0.1µF in parallel with 0.01µF low ESR
capacitors as close to the VCC pins as possible.
12, 9
Q, /Q
Differential Output: The output swing is typically 325mV. The output must be
terminated with 100Ω across the pair (Q, /Q). See the “Truth Table” below for the
logic function.
10, 11, 14,15
GND,
Exposed Pad
Ground: Ground and exposed pad must be connected to a ground plane that is
the same potential as the ground pins.
DIV_SEL
Single-ended Input: This TTL/CMOS-compatible input selects divide-by-3 when
pulled LOW and divide-by-5 when pulled HIGH. Note that this input is internally
connected to a 25kΩ pull-up resistor and will default to logic HIGH state if left
open. VTH = VCC/2.
1, 4
2
3
5
16
Truth Table
Inputs
November 2007
Outputs
DIV_SEL
EN
/MR
Q
/Q
X
X
0
0
1
0
1
1
÷3
÷3
1
1
1
÷5
÷5
X
0
1
0
1
3
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SY89231U
Absolute Maximum Ratings(1)
Operating Ratings(2)
Supply Voltage (VCC) .......................... –0.5V to +4.0V
Input Voltage (VIN) ..................................–0.5V to VCC
LVPECL Output Current (IOUT)...……………....±10mA
Current (VT)
Source or sink current on VT .......………±100mA
Input Current
Source or sink current on (IN, /IN) ........... ±50mA
Current (VREF-AC)
(4)
Source/Sink Current on VREF-AC ............ ±0.5mA
Maximum Operating Junction Temperature…..125°C
Lead Temperature (soldering, 20 sec.) .......... +260°C
Storage Temperature (Ts) ..................–65°C to 150°C
Supply Voltage (VCC).................. +2.375V to +2.625V
Ambient Temperature (TA) ................ –40°C to +85°C
(3)
Package Thermal Resistance
QFN (θ JA)
Still-Air ..................................................... 75°C/W
QFN (ψ JB)
Junction-to-Board………………………….33C/W
DC Electrical Characteristics(5)
TA = –40°C to +85°C, unless otherwise stated.
Symbol
Parameter
VCC
Power Supply
ICC
Power Supply Current
RIN
Input Resistance
(IN-to-VT)
RDIFF_IN
Condition
Min
Typ
Max
2.375
2.5
2.625
V
71
95
mA
45
50
55
Ω
Differential Input Resistance
(IN-to-/IN)
90
100
110
Ω
VIH
Input High Voltage
(IN, /IN)
1.2
VCC
V
VIL
Input Low Voltage
(IN, /IN)
0
VIH–0.1
V
VIN
Input Voltage Swing
(IN, /IN)
See Figure 2a. Note 6.
0.1
VCC
V
VDIFF_IN
Differential Input Voltage Swing
|IN-/IN|
See Figure 2b.
0.2
VREF-AC
Output Reference Voltage
VT_IN
Voltage from Input to VT
No load, max VCC
Units
V
VCC–1.3
VCC–1.2
VCC–1.1
V
1.8
V
Notes:
1. Permanent device damage may occur if absolute maximum ratings are exceeded. This is a stress rating only and functional operation is
not implied at conditions other than those detailed in the operational sections of this data sheet. Exposure to absolute maximum rating
conditions for extended periods may affect device reliability.
2. The data sheet limits are not guaranteed if the device is operated beyond the operating ratings.
3. Package thermal resistance assumes exposed pad is soldered (or equivalent) to the devices most negative potential on the PCB. θJA and
ψJB values are determined for a 4-layer board in still air unless otherwise stated.
4. Due to limited drive capability use for input of the same package only.
5. The circuit is designed to meet the DC specifications shown in the above table after thermal equilibrium has been established.
6. VIN (max) is specified when VT is floating.
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SY89231U
LVDS Outputs DC Electrical Characteristics(7)
VCC = +2.5V ±5%, RL = 100Ω across the outputs; TA = –40°C to +85°C, unless otherwise stated.
Symbol
Parameter
Condition
Min
Typ
VOUT
Output Voltage Swing (Q, /Q)
See Figure 2a
250
325
mV
VDIFF_OUT
Differential Output Voltage Swing |Q – /Q|
See Figure 2b
500
650
mV
1.20
VOCM
Output Common Mode Voltage (Q, /Q)
See Figure 5a
1.125
∆VOCM
Change in Common Mode Voltage (Q, /Q)
See Figure 5b
–50
Max
Units
1.275
V
+50
mV
Max
Units
LVTTL/CMOS DC Electrical Characteristics(7)
VCC = 2.5V ±5%; TA = –40°C to + 85°C, unless otherwise stated.
Symbol
Parameter
VIH
Input HIGH Voltage
Condition
Min
Typ
2.0
VIL
Input LOW Voltage
IIH
Input HIGH Current
-125
IIL
Input LOW Current
-300
V
0.8
V
30
µA
µA
Note:
7. The circuit is designed to meet the DC specifications shown in the above table after thermal equilibrium has been established.
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SY89231U
AC Electrical Characteristics(8)
VCC = 2.5V ±5%; RL = 100Ω across the outputs; T A = –40°C to + 85°C, unless otherwise stated.
Symbol
Parameter
Condition
Min
Typ
fMAX
Maximum Input Operating
Frequency
VOUT ≥ 200mV
3.2
4.5
tw
Minimum Pulse Width
IN, /IN
tpd
Differential Propagation Delay
In-to-Q
tRR
Reset Recovery Time
tS EN
Set-up Time
tH EN
Hold Time
tskew
Part-to-Part Skew
tJITTER
Clock
Units
GHz
140
/MR(H-L)-to-Q
ps
410
610
810
210
410
610
ps
ps
/MR(L-H)-to-IN
400
ps
EN-to-IN
Note 9
50
ps
IN-to-EN
Note 9
250
ps
Note 10
300
ps
Random Jitter
Note 11
1
psRMS
Cycle-to-Cycle Jitter
Note 12
1
psRMS
Total Jitter
tr, tf
Max
10
psPP
Output Rise/Fall Time (20% to
80%)
At full output swing.
Note 13
90
200
ps
Output Duty Cycle(÷ 3)
Duty Cycle (input): 50%; f ≤3.2GHz,
Note 14
46
54
%
Output Duty Cycle(÷ 5)
Duty Cycle (input): 50%; f ≤3.2GHz,
Note 14
47
53
%
Notes:
8. High-frequency AC-parameters are guaranteed by design and characterization.
9. Set-up and hold times apply to synchronous applications that intend to enable/disable before the next clock cycle. For asynchronous
applications, set-up and hold do not apply.
10. Part-to-Part skew is defined for two parts with identical power supply voltages at the same temperature and with no skew of the edges at
the respective inputs.
11. Random Jitter is measured with a K28.7 character pattern, measured at <fMAX.
12. Cycle-to-Cycle Jitter definition: the variation of periods between adjacent cycles, Tn – Tn-1 where T is the time between rising edges of the
output signal.
13. Total Jitter definition: with an ideal clock input of frequency <fMAX, no more than one output edge in 1012 output edges will deviate by more
than the specified peak-to-peak jitter value.
14. For Input Duty Cycle different from 50%, see “Output Duty Cycle Equation” in “Functional Description” subsection.
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SY89231U
The Enable function operates as follows:
Functional Description
1. The
enable/disable
function
is
synchronous so that the clock outputs will
be enabled following a rising and a falling
edge of the input clock when switching
from EN=LOW to EN=HIGH.
Output Duty Cycle Equation
For a non 50% input, derate the spec by:
Divide by 3:
1+
(0.5 -
X
100 ) x100, in %
3
However, when switching from EN=HIGH
to EN=LOW, the clock outputs will be
disabled following an input clock rising
edge and an output clock falling edge.
Divide by 5:
X
100 ) x100, in %
(0.5 5
X= input Duty Cycle, in %
2. The enable/disable function always
guarantees the full pulse width at the
output before the clock outputs are
disabled, non-depending on the divider
ratio. Refer to Figure 1b for examples.
2+
Example: if a 45% input duty cycle is applied or X=45,
in divide by 3 mode, the spec would expand by 1.67%
to 44.3%-55.7%
Divider Operation
The divider operation uses both the rising and falling
edge of the input clock. For divide by 3, the falling
edge of the second input clock cycle will determine
the falling edge of the output. For divide by 5, the
falling edge of the third input clock cycle. Refer to
Figure 1c.
Enable (EN)
EN is a synchronous TTL/CMOS-compatible input that
enables/disables the outputs based on the input to
this pin. Internal 25k
Ω pull -up resistor defaults the
input to logic HIGH if left open. Input switching
threshold is VCC/2.
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SY89231U
Timing Diagrams
Figure 1a. Propagation Delay
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SY89231U
Figure 1b. Enable Output Timing Diagram Examples (divide by 3)
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Figure 1c. Divider Operation Timing Diagram
Typical Operating Characteristics
VCC = 2.5V, GND = 0V, tr / tf ≤ 300ps, RL = 100Ω across the outputs; TA = 25°C, unless otherwise stated.
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SY89231U
Functional Characteristics
VCC = 2.5V, GND = 0V, VIN = 350mV, Q = Divide by 3, tr/tf ≤ 300ps, RL = 100Ω across the outputs; TA = 25°C, unless otherwise
stated.
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SY89231U
Single-Ended and Differential Swings
Figure 2b. Differential Voltage Swing
Figure 2a. Single-Ended Voltage Swing
Input Stage
Figure 3. Simplified Differential Input Stage
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SY89231U
Input Interface Applications
Option: may connect VT to VCC
Figure 4a. LVPECL Interface
(DC-Coupled)
Figure 4b. LVPECL Interface
(AC-Coupled)
Figure 4d. CML Interface
(AC-Coupled)
Figure 4e. LVDS Interface
(DC-Coupled)
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Figure 4c. CML Interface
(DC-Coupled)
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SY89231U
LVDS Output Interface Applications
LVDS specifies a small swing of 325mV typical, on a
nominal 1.2V common mode above ground. The
common mode voltage has tight limits to permit large
variations in the ground between and LVDS driver and
receiver. Also, change in common mode voltage, as a
function of data input, is kept to a minimum, to keep
EMI low.
Figure 5b. LVDS Common Mode Measurement
Figure 5a. LVDS Differential Measurement
Related Product and Support Documentation
Part Number
Function
SY89228U
1GHz Precision, LVPECL ÷3, ÷5 Clock
Divider with Fail Safe Input and Internal
Termination
SY89229U
1GHz Precision, LVDS ÷3, ÷5 Clock Divider
with Fail Safe Input and Internal Termination
SY89230U
3.2GHz Precision, LVPECL ÷3, ÷5 Clock
Divider
HBW Solutions
New Products and Applications
November 2007
Datasheet Link
www.micrel.com/product-info/products/solutions.shtml
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SY89231U
Package Information
16-Pin QFN
Packages Notes:
1. Package meets Level 2 Moisture Sensitivity Classification.
2. All parts are dry-packed before shipment.
3. Exposed pad must be soldered to a ground for proper thermal management.
MICREL, INC. 2180 FORTUNE DRIVE SAN JOSE, CA 95131 USA
TEL +1 (408) 944-0800 FAX +1 (408) 474-1000 WEB http:/www.micrel.com
The information furnished by Micrel in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for
its use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer.
Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a
product can reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for
surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury
to the user. A Purchaser’s use or sale of Micrel Products for use in life support appliances, devices or systems is a Purchaser’s own risk and
Purchaser agrees to fully indemnify Micrel for any damages resulting from such use or sale.
© 2007 Micrel, Inc.
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