DataSheet39.com

What is GA1088?

This electronic component, produced by the manufacturer "TriQuint Semiconductor", performs the same function as "11-Output Configurable Clock Buffer".


GA1088 Datasheet PDF - TriQuint Semiconductor

Part Number GA1088
Description 11-Output Configurable Clock Buffer
Manufacturers TriQuint Semiconductor 
Logo TriQuint Semiconductor Logo 


There is a preview and GA1088 download ( pdf file ) link at the bottom of this page.





Total 10 Pages



Preview 1 page

No Preview Available ! GA1088 datasheet, circuit

TRIQUINT
S E M I C O N D U C T O R, I N C .
FBIN S1 REFCLK S0 F1
11 10 9 8 7
F0 GND
65
GA1088
TEST 12
VDD 13
Q0 14
GND 15
Q1 16
Q2 17
VDD 18
Phase
Detector
VCO
MUX
Divide Logic
÷4, ÷6, or ÷8
Phase
Select
Group Output Buffers
Group
C
A Group B
4 VDD
3 Q10
2 Q9
1 GND
28 Q8
27 Q7
26 VDD
19 20
GND Q3
21 22 23
Q4 VDD Q5
24 25
Q6 GND
TriQuint’s GA1088 is a configurable clock buffer which generates 11
outputs, operating over a wide range of frequencies — from 18 MHz to
105 MHz. The outputs are available at either 1x and 2x or at 1x and 1/2 x
the reference clock frequency, fREF . When one of the Group A outputs (Q0–
Q2) is used as feedback to the PLL, all Group A outputs will be at fREF , and
all Group B (Q3–Q6) and Group C (Q7–Q10) outputs will be at 2x fREF .
When one of the Group B outputs is used as feedback to the PLL, all Group
A outputs will be at 1/2 x fREF and all Group B and Group C outputs will
be at fREF .
A very stable internal Phase-Locked Loop (PLL) provides low-jitter
operation. This completely self-contained PLL requires no external
capacitors or resistors. The PLL’s voltage-controlled oscillator (VCO) has a
frequency range from 280 MHz to 420 MHz. By feeding back one of the
output clocks to FBIN, the PLL continuously maintains frequency and
phase synchronization between the reference clock (REFCLK) and each of
the outputs. The Shift Select pins select the phase shift (–2t, –t, 0, or +t)
for Group C outputs (Q7–Q10) with respect to REFCLK. The phase shift
increment (t) is equivalent to the VCO’s period (1/fVCO).
11-Output
Configurable
Clock Buffer
Features
• Wide frequency range:
18 MHz to 105 MHz
• Output configurations:
three outputs at 1/2 fREF
three outputs at fREF
four outputs at fREF
with adjustable phase or
two outputs at fREF
four outputs at 2x fREF
four outputs at 2x fREF
with adjustable phase
• Selectable Phase Shift:
–2t, –t, 0, and +t (t = 1/fVCO)
• Low output-to-output skew:
150 ps (max) within a group
• Near-zero propagation delay
–350 ps + 500 ps (max) or
–350 ps +700 ps (max)
• TTL-compatible with 30 mA
output drive
• 28-pin J-lead surface-mount
package
TriQuint’s patented output buffer design delivers a very low output-to-
output skew of 150 ps (max). The GA1088’s symmetrical TTL outputs are
capable of sourcing and sinking 30 mA.
For additional information and latest specifications, see our website: www.triquint.com
1

line_dark_gray
GA1088 equivalent
GA1088
AC Characteristics (VDD = +5 V + 5%, TA = 0 °C to +70 °C)
Symbol
t CPWH
t CPWL
t IR
Input Clock (REFCLK)
CLK pulse width HIGH
CLK pulse width LOW
Input rise time (0.8 V - 2.0 V)
Test Conditions (Figure 3) 1
Figure 4
Figure 4
Min
3
3
Typ Max Unit
--- — ns
--- — ns
— 2.0 ns
Symbol
Input Clock (Q0–Q10)
Test Conditions (Figure 3) 1
Min
Typ Max Unit
t OR,t OF
t PD1 2
t PD2 2
t SKEW1 3
t SKEW2 3
t SKEW3 3
t SKEW4 3
t CYC 4
t JP 5
t JR 5
t SYNC 6
Rise/fall time (0.8 V – 2.0 V)
Figure 4
CLK Î to FBIN Î (GA1088-MC500)
Figure 4
CLK Î to FBIN Î (GA1088-MC700)
Figure 4
Rise–rise, fall–fall (within group)
Figure 5
Rise–rise, fall–fall (group-to-group, aligned) Figure 6 (skew2 takes into account skew1)
Rise–rise, fall–fall (group-to-group, non-aligned)Figure 7 (skew3 takes into account skews1, 2)
Rise-fall, fall-rise
Figure 8 (skew4 takes into account skew3)
Duty-cycle Variation
Figure 4
Period-to-Period Jitter
Figure 4
Random Jitter
Figure 4
Synchronization Time
350
–850
–1050
–1000
–350
–350
60
75
0
80
190
10
1400
+150
+350
150
350
650
1200
+1000
200
400
500
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
µs
Notes: 1. All measurements are tested with a REFCLK having a rise time of 0.5 ns (0.8 V to 2.0 V).
2. The PLL maintains alignment of CLK and FBIN at all times. This specification applies to the rising edge only because the input duty
cycle can vary while the output duty cycle is typically 50/50. The delay tPD is measured at the 1.5 V level between CLK and FBIN.
3. Skew specifies the width of the window in which outputs switch, and is measured at 1.5 V.
4. This specification represents the deviation from 50/50 on the outputs.
5. Jitter specifications refer to peak-to-peak value. tJR is the jitter on the output with respect to the reference clock. tJP is the jitter on the
output with respect to the output’s previous rising edge.
6. tSYNC is the time required for the PLL to synchronize; this assumes the presence of a CLK signal and a connection from one of the
outputs to FBIN.
Figure 3. AC Test Circuit
+5 V
R1
R2
Z
+5 V
R1 Z
R2
Notes:
R1 = 160
R2 = 71
Y+Z=X
Y
FBIN Q0
Q1
Q2
CLK Q10
50
X
+5 V
R1 +5 V
R2 R1
R2
+5 V
R1
R2
For additional information and latest specifications, see our website: www.triquint.com
5


line_dark_gray

Preview 5 Page


Part Details

On this page, you can learn information such as the schematic, equivalent, pinout, replacement, circuit, and manual for GA1088 electronic component.


Information Total 10 Pages
Link URL [ Copy URL to Clipboard ]
Download [ GA1088.PDF Datasheet ]

Share Link :

Electronic Components Distributor


An electronic components distributor is a company that sources, stocks, and sells electronic components to manufacturers, engineers, and hobbyists.


SparkFun Electronics Allied Electronics DigiKey Electronics Arrow Electronics
Mouser Electronics Adafruit Newark Chip One Stop


Featured Datasheets

Part NumberDescriptionMFRS
GA1085The function is 11-Output Configurable Clock Buffer. TriQuint SemiconductorTriQuint Semiconductor
GA1086The function is 11-Output Clock Buffer. TriQuint SemiconductorTriQuint Semiconductor
GA1087The function is 11-Output Configurable Clock Buffer. TriQuint SemiconductorTriQuint Semiconductor

Semiconductors commonly used in industry:

1N4148   |   BAW56   |   1N5400   |   NE555   |  

LM324   |   BC327   |   IRF840  |   2N3904   |  



Quick jump to:

GA10     1N4     2N2     2SA     2SC     74H     BC     HCF     IRF     KA    

LA     LM     MC     NE     ST     STK     TDA     TL     UA    



Privacy Policy   |    Contact Us     |    New    |    Search