FQV243L6PF [AMICC]
FIFO, 2KX18, 4ns, Synchronous, CMOS, PQFP80;型号: | FQV243L6PF |
厂家: | AMIC TECHNOLOGY |
描述: | FIFO, 2KX18, 4ns, Synchronous, CMOS, PQFP80 时钟 先进先出芯片 内存集成电路 |
文件: | 总43页 (文件大小:394K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
3.3 Volt Synchronous x9/x18 First-In/First-Out Queue
Memory Organization
262,144 x 18 / 524,288 x 9
131,072 x 18 / 262,144 x 9
65,536 x 18 / 131,072 x 9
32,768 x 18 / 65,536 x 9
Device
FQV2113
FQV2103
FQV293
FQV283
Memory Organization
16,384 x 18 / 32,768 x 9
8,192 x 18 / 16,384 x 9
4,096 x 18 / 8,192 x 9
2,048 x 18 / 4,096 x 9
Device
FQV273
FQV263
FQV253
FQV243
Key Features
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Industry leading First-In/First-Out Queues (up to 166MHz)
Write cycle time of 6.0ns independent of Read cycle time (Data Setup time = 2.0ns)
Read cycle time of 6.0ns independent of Write cycle time (Data Access time = 4.0ns)
User selectable input and output port bus-sizing
Big Endian/Little Endian user selectable byte representation
3.3V power supply
5V input tolerant on all control and data input pins
5V output tolerant on all flags and data output pins
Master Reset clears all previously programmed configurations including Write and Read pointers
Partial Reset clears Write and Read pointers but maintains all previously programmed configurations
First Word Fall Through (FWFT) and Standard Timing modes
Presets for eight different Almost Full and Almost Empty offset values
Parallel/Serial programming of PRAF and PRAE offset values
Programmable 8-bit or 9-bit parallel programming modes for offset values
Full, Empty, Almost Full, Almost Empty, and Half Full indicators
PRAF and PRAE operates in either synchronous or asynchronous modes
Asynchronous output enable tri-state data output drivers
Data retransmission with programmable zero or normal latency modes
Available package: 80 - pin Plastic Thin Quad Flat Pack (TQFP)
(0°C to 70°C) Commercial operating temperature available for cycle time of 6.0ns and above
(-40°C to 85°C) Industrial operating temperature available for cycle time of 7.5ns and above
Product Description
HBA’s FlexQ™ III offers industry leading FIFO queuing bandwidth (up to 3.0 Gbps), with a wide range of memory
configurations (from 2,048 x 18 to 262,144 x 18 or 4,096 x 9 to 524,286 x 9). System designer has full flexibility of
implementing deeper and wider queues using FWFT mode and width expansion features. Full, Empty, and Half-Full indicators
allow easy handshaking between transmitters and receivers. User programmable Almost Full and Almost Empty (Parallel/Serial)
indicators allow implementation of virtual queue depths.
5V tolerant on all input and output pins allows easy interfacing with devices operating at higher voltage levels. Asynchronous
Output Enable pin configures the tri-state data output drivers. Independent Write and Read controls provide rate-matching
capability.
Master Reset clears all previously programmed configurations by providing a low pulse on MRST pin. In addition, Write and
Read pointers to the queue are initialized to zero. Partial Reset will not alter previously programmed configurations but will
initialize Write and Read pointers to zero.
In FWFT mode, the first data written into the queue appears on output data bus after the specified latency period at the low to
high transition of RCLK. Subsequent reads from the queue will require asserting REN . This feature is useful when
implementing depth expansion functions. In this mode, DRDY and QRDY are used instead of FULL and
EMPTY respectively.
JANUARY 2003
3F30918C
Page 1 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Product Description (Continued)
In Standard mode, always assert REN whenever a read operation. FULL and EMPTY are used instead of DRDY and
QRDY respectively.
Bus matching feature is available with the following configurations:
Input Bus Width
Output Bus Width
x9
x9
x9
x18
x9
x18
x18
x18
In addition, Endian Select is available for implementing byte re-ordering on data outputs.
Eight different default offset values are available for Almost Full ( PRAF ) and Almost Empty ( PRAE ) flags. Parallel and Serial
programming of these offset values provide total flexibility other than the pre-defined default values. Both 8-bit and 9-bit
parallel programming modes for offset values can be selected for convenience.
PRAF , PRAE , and HALF are available in either FWFT or Standard mode. PRAF and PRAE can operate in either
synchronous or asynchronous modes.
At any time, data previously read from the queue can be retransmitted by asserting RET pin at the low to high transition of
RCLK for a retransmit operation. Retransmit initializes the Read pointer to zero. Hence, all re-reads will always start from the
physical 0th (Read pointer = zero) location of the queue. Both zero and normal latency timing modes are available for retransmit
operation.
These FlexQ™ III devices have low power consumption, hence minimizing system power requirements. In addition, industry
standard 80 - pin Plastic TQFP is offered to save system board space.
These queues are ideal for applications such as data communication, telecommunication, graphics, multiprocessing, test
equipment, network switching, etc.
.
JANUARY 2003
3F30918C
Page 2 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Block Diagram of Single Synchronous Queue
262,144 x 18 / 131,072 x 18 / 65,536 x 18 / 32,768 x 18 / 16,384 x 18 / 8,192 x 18 / 4,096 x 18 / 2,048 x 18 /
524,288 x 9 / 262,144 x 9 / 131,072 X 9 / 65,536 X 9 / 32,768 X 9 / 16,384 X 9 / 8,192 x 9 / 4,096 x 9
PRST
MRST
)
PARTIAL RESET (
)
MASTER RESET (
READ CLOCK (RCLK)
REN
WRTIE CLOCK (WCLK)
WEN
READ ENABLE (
)
WRITE ENABLE (
)
OE
OUTPUT ENABLE (
)
FQV2113
FQV2103
FQV293
FQV283
FQV273
FQV263
FQV253
FQV243
LOAD ( LOAD)
x18 or x9 DATA IN (D 17 - 0
x18 or x9 DATA OUT (Q 17 - 0
)
)
RETRANSMIT (
)
RET
EMPTY FLAG / OUTPUT READY
EMPTY /QRDY
SERIAL DATA ENABLE
( SDEN)
(
)
FIRST WORD FALL THROUGH/
SERIAL DATA INPUT (FWFT/SDI)
FULL FLAG / INPUT READY
PROGRAMMABLE ALMOST-
EMPTY (
)
PRAE
HALF-FULL FLAG (
)
(
)
HALF
FULL/ DRDY
PROGRAMMABLE
ALMOST-FULL (
BIG-ENDIAN / LITTLE-ENDIAN (
INTERSPERSED /
NON-INTERSPERSED PARITY (IPAR)
)
ES
)
PRAF
BUS MATCHING 1
(BM1)
BUS MATCHING 0
(BM0)
Figure 1. Single Device Configuration Signal Flow Diagram
JANUARY 2003
3F30918C
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
Page 3 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
WCLK WEN
IPAR LOAD SDEN FWFT/SDI
/ DRDY
FULL
PRAF
Write Control
Logic
EMPTY/QRDY
PRAE
HALF
FWFT/SDI
Offset Register
Flag Logic
SFM
PFS1
PFS0
Write Pointer
Output
Buffer
Input Register
Output Register
SRAM
Q 17-0
x18, x9
D17-0
x18, x9
OE
Read Pointer
Bus
Configuration
Read Control
Logic
Reset
RETZL RET RCLK REN
MRST PRST
ES BM1 BM0
Figure 2. Device Architecture
JANUARY 2003
3F30918C
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
Page 4 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Index
WEN
SDEN
DNC1
Vcc
RET
OE
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
Vcc
Q17
Q16
GND
DNC1
BM1
GND
D17
Vcc
GND
Q15
Q14
Vcc
D16
D15
D14
D13
GND
D12
D11
D10
D9
Q13
Q12
GND
Q11
GND
Q10
Vcc
Q9
Q8
Q7
D8
Vcc
TQFP - 80 (Drw No: PF-01A; Order code: PF)
Top View
NOTES:
1.
DNC = Do Not Connect.
Figure 3. Device Pin Out
JANUARY 2003
3F30918C
Page 5 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Description
Pin #
Pin Name
Pin Symbol
Input/Output
Master Reset is required to initialize Write and Read
pointers to the first position of the queue by setting
MRST low. In Standard mode, FULL and PRAF will
go high; EMPTY and PRAE will go low. In FWFT
mode, DRDY will go low and QRDY will go high.
PRAF and PRAE will go to the same state as Standard
mode. In both modes, all data outputs will go low.
Previous programmed configurations will not be
maintained.
78
Master Reset
Input
MRST
Partial Reset is required to initialize Write and Read
pointers to the first position of the queue by setting
PRST low. In Standard mode, FULL and PRAF will
go high; EMPTY and PRAE will go low. In FWFT
mode, DRDY will go low and QRDY will go high.
PRAF and PRAE will go to the same state as Standard
mode. In both modes, all data outputs will go low.
Previous programmed configurations will be
maintained.
79
Partial Reset
Input
PRST
Writes data into queue during low to high transitions of
WCLK if WEN is set to low.
80
01
Write Clock
Write Enable
WCLK
WEN
Input
Input
Controls write operation into queue or offset registers
during low to high transition of WCLK.
During Master Reset, set LOAD low to select parallel
programming and one of eight default-offset values.
Set LOAD high to select serial programming and one
of eight default offset values. After Master Reset,
LOAD controls write/read, to/from offset registers
during low to high transition of WCLK/RCLK
77
Load Enable
Input
LOAD
respectively. Use in conjunction with WEN / REN .
Default
During Master Reset, select one of eight default-offset
values. Use in conjunction with LOAD and PFS0.
70
72
PFS1
PFS0
Input
Input
Programming 1
Default
During Master Reset, select one of eight default-offset
values. Use in conjunction with LOAD and PFS1.
Programming 0
08,10,11,
12,13,15,
16,17,18
19,21,22,
24,25,26,
27,28,29
Data Inputs
D17-0
Input
18 - bit wide input data bus.
Reads data from queue during low to high transitions of
RCLK if REN is set to low.
62
61
Read Clock
Read Enable
RCLK
REN
Input
Input
Controls read operation from queue or offset registers
during low to high transition of RCLK.
Setting OE low activates the data output drivers.
Setting OE high deactivates the data output drivers
(High-Z).
59
Output Enable
Input
OE
Table 1. Pin Descriptions
JANUARY 2003
3F30918C
Page 6 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Description
Pin #
Pin Name
Pin Symbol
Input/Output
57,56,53,
52,50,49,
47,45,43,
42,41,40,
38,37,35,
34,32,31
Data Outputs
Q17-0
Output
18 - bit wide output data bus.
Selects FWFT timing or Standard timing mode during
Master Reset. After Master Reset, if serial
programming is selected ( LOAD = high), FWFT/SDI
is used as the serial data input for the offset registers.
Serial data is written during the low to high transition
of WCLK. Use in conjunction with SDEN .
First Word Fall
Through/Serial
Data Input
76
02
FWFT/SDI
SDEN
Input
Input
If serial programming is selected, setting SDEN low
and LOAD low enables serial data input to be written
into offset registers during the low to high transition of
WCLK.
Serial Data
Input Enable
Bus Matching
1
During Master Reset, set BM1 low to select x18 input
bus width or BM1 high to select x9 input bus width.
06
73
BM1
BM0
Input
Input
During Master Reset, set BM0 low to select x18
output bus width or BM0 high to select x9 output bus
width.
Bus Matching
0
During Master Reset, set ES high to select byte re-
ordering on data outputs or ES low to select no byte
re-ordering on data outputs.
69
60
63
75
Endian Select
ES
Input
Input
Data previously read from the queue can be
retransmitted by asserting RET pin at the low to high
transition of RCLK for a retransmit operation.
Retransmit initializes the Read pointer to zero. Hence,
all re-reads will always start from the physical 0th
(Read pointer = zero) location of the queue.
Retransmit
RET
RETZL
During Master Reset, set RETZL low to select zero
latency retransmit or RETZL high to select normal
latency retransmit.
Zero Latency
Retransmit
Input
Queue is full when FULL goes low during the low to
high transition of WCLK. This prohibits further
writes into the queue. In FWFT mode, queue is full
when DRDY goes high during low to high transition
of WCLK. This prohibits further writes into the
queue.
Full/Data Input
Ready Flag
Output
FULL / DRDY
Queue is empty when EMPTY goes low during the
low to high transition of RCLK. This prohibits further
reads from the queue. In FWFT mode, queue is empty
when QRDY goes high during the low to high
transition of RCLK. This prohibits further reads from
the queue.
Empty/Data
Output Ready
Flag
64
EMPTY / QRDY
IPAR
Output
Input
During Master Reset, set IPAR low to select 9-bit
parallel programming mode or IPAR high to select 8-
bit parallel programming mode.
Interspersed
Parity
68
Table 1. Pin Descriptions (Continued)
JANUARY 2003
3F30918C
Page 7 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Description
Pin #
Pin Name
Pin Symbol Input/Output
During Master Reset, set SFM high to select
Synchronous Partial Flag mode or SFM low to select
Asynchronous Partial Flag mode.
Synchronous
65
SFM
Input
Partial Flag Mode
Queue is almost full when PRAF goes low during the
low to high transition of WCLK. Default (Full-offset)
or programmed offset values determine the status of
PRAF .
Queue is almost empty when PRAE goes low during
the low to high transition of RCLK. Default (Empty
+offset) or programmed offset values determine the
status of PRAE .
74
66
Almost Full
Output
PRAF
Almost Empty
Output
PRAE
Queue is more than half full when HALF goes low.
Triggered by both WCLK and RCLK.
71
Half Full
Output
N/A
HALF
DNC
03, 05
Do Not Connect
Do not connect.
04,09,20
36,44,51,
58,67
Power
VCC
N/A
N/A
3.3V power supply.
07,14,23,
30,33,39,
Ground
GND
0V Ground.
46,48,54,55,
Table 1. Pin Descriptions (Continued)
JANUARY 2003
3F30918C
Page 8 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Symbol
Rating
Com’l & Ind’l
Unit
NOTES:
Terminal Voltage with
respect to GND
Absolute Max Ratings are for reference only. Permanent damage to the device may
VTERM
-0.5 to + 4.5
V
occur if extended period of operation is outside this range. Standard operation should
fall within the Recommended Operating Conditions.
TSTG
IOUT
Storage Temperature
DC Output Current
-55 to +125
-50 to +50
°C
mA
Table 2. Absolute Maximum Ratings
FQV2113, FQV2103FQV293, FQV283
FQV273, FQV263, FQV253, FQV243
Commercial
Industrial
Clock = 6ns, 7.5ns, 10ns,
Clock = 7.5ns, 10ns, 15ns
15ns
Symbol
Parameter
Min.
Typ.
Max. Min.
Typ.
Max.
Unit
Recommended Operating Conditions
Vcc
Supply Voltage Com’l / Ind’l
3.15
3.3
3.45
3.15
3.3
3.45
V
GND
VIH
VIL
TA
Supply Voltage
0
2.0
-
0
-
0
0
2.0
-
0
-
0
V
V
Input High Voltage Com’l /
Ind’l
Input Low Voltage Com’l /
Ind’l
Operating Temperature
Commercial
Operating Temperature
Industrial
5.5
0.8
70
85
5.5
0.8
70
85
-
-
V
0
-
0
-
°C
°C
TA
-40
-
-40
-
DC Electrical Characteristics
Input Leakage Current (any
ILI(1)
-1
-10
2.4
-
-
-
-
-
1
10
-
-1
-10
2.4
-
-
-
-
-
1
10
-
µA
µA
V
input)
ILO
Output Leakage Current
Output Logic “1” Voltage,
IOH=-2mA
VOH
Output Logic “0” Voltage, IOL
VOL
0.4
0.4
V
= 8mA
Power Consumption
ICC1(2,3)
Active Power Supply Current
(x9 Input to x9 Output)
-
-
-
-
-
-
30
35
15
-
-
-
-
-
-
30
35
15
mA
mA
mA
Active Power Supply Current
ICC1(2,3)
ICC2(4)
(x18 Input to x18 Output)
Standby Current
Table 3. DC Specifications
JANUARY 2003
3F30918C
Page 9 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Capacitance at 1.0MHz Ambient Temperature (25°C)
Symbol
Parameter
Conditions
Max.
Unit
CIN(2)
Input Capacitance
VIN= 0V
10
pF
COUT(2,4)
Output Capacitance
VOUT= 0V
10
pF
NOTES:
1.
2.
3.
4.
Measurement with 0.4<=VIN<=Vcc.
With output tri-stated ( OE = High).
Icc(1,2) is measured with WCLK and RCLK at 20 MHz.
Design simulated, not tested.
Table 3. DC Specifications (Continued)
JANUARY 2003
3F30918C
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
Page 10 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Commercial
Commercial & Industrial
FQV2113-6
FQV2103-6
FQV293-6
FQV283-6
FQV273-6
FQV263-6
FQV253-6
FQV243-6
FQV2113-7.5
FQV2103-7.5
FQV293-7.5
FQV283-7.5
FQV273-7.5
FQV263-7.5
FQV253-7.5
FQV243-7.5
FQV2113-10
FQV2103-10
FQV293-10
FQV283-10
FQV273-10
FQV263-10
FQV253-10
FQV243-10
FQV2113-15
FQV2103-15
FQV293-15
FQV283-15
FQV273-15
FQV263-15
FQV253-15
FQV243-15
Symbol
Parameter
Clock Cycle Frequency
Min.
-
Max.
Min.
-
Max.
Min.
-
Max.
Min.
-
Max.
Unit
MHz
ns
fS
166
4
-
133
100
66
10
-
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
A
Data Access Time
1
2
5
-
-
-
-
-
-
-
-
-
-
-
2
6.5
2
WCLK
WCLKH
WCLKL
RCLK
RCLKH
RCLKL
DS
Write Clock Cycle Time
Write Clock High Time
Write Clock Low Time
Read Clock Cycle Time
Read Clock High Time
Read Clock Low Time
Data Set-up Time
6
7.5
3.5
3.5
7.5
3.5
3.5
2.5
0.5
2.5
0.5
10
15
10
-
10
4.5
4.5
10
4.5
4.5
3.5
0.5
3.5
0.5
10
15
10
-
-
-
15
6
ns
2.5
2.5
6
-
-
ns
-
-
6
-
ns
-
-
15
6
-
ns
2.5
2.5
2.0
0.5
2.0
0.5
8
-
-
-
ns
-
-
6
-
ns
-
-
4
-
ns
DH
Data Hold Time
-
-
1
-
ns
ENS
Enable Set-up Time
-
-
4
-
ns
ENH
Enable Hold Time
Reset Pulse Width(1)
-
-
1
-
ns
RST
-
-
15
15
15
-
-
ns
RSTS
RSTR
RSTF
OLZ
Reset Set-up Time
10
10
-
-
-
-
ns
Reset Recovery Time
-
-
15
-
-
-
ns
Reset to Flag and Output Time
Output Enable to Output in Low-Z(1)
Output Enable to Output Valid
Output Enable to Output in High-Z(1)
Write Clock to Full Flag
Read Clock to Empty Flag
Write Clock to Synchronous Almost-Full Flag
10
-
15
-
15
-
ns
0
0
0
0
ns
OE
2
4
4
4
4
4
2
6
2
6
6
6.5
6.5
6.5
2
8
8
10
10
10
ns
OHZ
2
2
6
2
2
ns
FULL
EMPTY
PRAFS
-
-
5
-
-
ns
-
-
5
-
-
ns
-
-
5
-
-
ns
Read Clock to Synchronous Almost-Empty
Flag
t
t
t
PRAES
SKEW1
-
4
-
-
5
-
-
7
6.5
-
9
10
-
ns
ns
ns
Skew time between Read Clock & Write Clock
for Full Flag / Empty Flag
4
6
5
7
-
-
Skew time between Read Clock & Write Clock
for PRAE & PRAF
SKEW2
-
-
10
14
-
t
t
LOADS
LOADH
Load Setup Time
Load Hold Time
2
-
-
2.5
0.5
-
-
3.5
0.5
-
-
4
1
-
-
ns
ns
0.5
Table 4. AC Electrical Characteristics
JANUARY 2003
3F30918C
Page 11 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Commercial
Commercial & Industrial
FQV2113-6
FQV2103-6
FQV293-6
FQV283-6
FQV273-6
FQV263-6
FQV253-6
FQV243-6
FQV2113-7.5
FQV2103-7.5
FQV293-7.5
FQV283-7.5
FQV273-7.5
FQV263-7.5
FQV253-7.5
FQV243-7.5
FQV2113-10
FQV2103-10
FQV293-10
FQV283-10
FQV273-10
FQV263-10
FQV253-10
FQV243-10
FQV2113-15
FQV2103-15
FQV293-15
FQV283-15
FQV273-15
FQV263-15
FQV253-15
FQV243-15
Symbol
Parameter
Retransmit Setup Time
Min.
Max.
Min.
Max.
Min.
Max.
Min.
Max.
Unit
t
t
RETS
3
-
3.5
-
3.5
-
4
-
ns
HALF
-
12
-
12.5
-
16
-
20
ns
Clock to HALF
Write Clock to Asynchronous
Programmable Almost-Full Flag
t
t
PRAFA
-
12
-
12.5
-
16
-
20
ns
Read Clock to Asynchronous
PRAEA
-
12
-
12.5
-
16
-
20
ns
Programmable Almost-Empty Flag
NOTES:
1.
Design simulated, not tested.
Table 4. AC Electrical Characteristics (Continued)
JANUARY 2003
3F30918C
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
Page 12 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Input Pulse Levels
Input Rise/Fall Times
GND to 3.0V
3ns
Input Timing Reference Levels
Output Reference Levels
1.5V
1.5V
Output Load, clock = 6ns, 7.5ns
Output Load*, clock = 10ns, 15 ns
Refer to Figure 4 & 6
Refer to Figure 5
* Include jig and scope capacitances
Table 5. AC Test Condition
3.3V
Vcc/2
330Ω
50 Ω
D.U.T.
30pF*
510Ω
I/O
Z0 = 50 Ω
Figure 5. Output Load
Figure 4. AC Test Load
for clock = 10ns, 15ns
for clock = 6ns, 7.5ns
*Includes jig and scope capacitances.
4
3
2
1
20 30
50
80
100
200
Capacitance (pF)
Figure 6. Lumped Capacitive Load
JANUARY 2003
3F30918C
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Page 13 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Pin Functions
Master Reset is required to initialize Write and Read pointers to the first position of the queue by setting
MRST low. In Standard mode, FULL and PRAF will go high; EMPTY and PRAE will go low. In
FWFT mode, DRDY will go low and QRDY will go high. PRAF and PRAE will go to the same state
as Standard mode. In both modes, all data outputs will go low. Previous programmed configurations will
not be maintained.
MRST
Partial Reset is required to initialize Write and Read pointers to the first position of the queue by setting
PRST low. In Standard mode, FULL and PRAF will go high; EMPTY and PRAE will go low. In
FWFT mode, DRDY will go low and QRDY will go high. PRAF and PRAE will go to the same state
as Standard mode. In both modes, all data outputs will go low. Previous programmed configurations will
be maintained.
PRST
WCLK
Writes data into queue during low to high transitions of WCLK if WEN is activated. Synchronizes
FULL / DRDY and PRAF flags. WCLK and RCLK are independent of each other.
Controls write operation into queue or offset registers during low to high transition of WCLK.
WEN
During Master Reset, set LOAD low to select parallel programming and one of eight default offset
values. Set LOAD high to select serial programming and one of eight default offset values. After Master
Reset, LOAD controls write/read, to/from offset registers during low to high transition of WCLK/RCLK
respectively for parallel programming. Use in conjunction with WEN / REN . During programming of
offset registers, PRAF and PRAE flag status are invalid. For Serial programming, LOAD is used to
enable serial loading of offset registers together with SDEN . Refer to Figure 7 & Table 11 for details.
LOAD
PFS1
PFS0
During Master Reset, select one of eight default-offset values. Use in conjunction with LOAD
and PFS0. Refer to Table 11 for details.
During Master Reset, select one of eight default-offset values. Use in conjunction with LOAD and
PFS1. Refer to Table 11 for details.
18 - bit wide input data bus.
D17-0
RCLK
Reads data from queue during low to high transitions of RCLK if REN is set low. Synchronizes the
EMPTY /QRDY and PRAE flags. RCLK and WCLK are independent of each other.
Reads data from queue or offset registers during low to high transitions of RCLK if REN is set low. This
also advances the Read pointer of the queue.
REN
OE
Setting OE low activates the data output drivers. Setting OE high deactivates the data output drivers
(High-Z). OE does not control advancement of Read pointer.
18 - bit wide output data bus.
Q17-0
FWFT/SDI
Selects FWFT timing or Standard timing mode during Master Reset. After Master Reset, if serial
programming is selected ( LOAD = high), FWFT/SDI is used as the serial data input for the offset
registers. Serial data is written during the low to high transition of WCLK. Use in conjunction with
SDEN . In FWFT mode, DRDY and QRDY is used instead of FULL and EMPTY . Refer to Table 9
for all flags status. In Standard mode, FULL and EMPTY are used instead of DRDY and QRDY .
Refer to Table 8 for all flags status.
SDEN
If serial programming is selected, setting SDEN low and LOAD low enables serial data to be written into
offset registers during the low to high transition of WCLK. During serial programming, PRAF and
PRAE flags status are invalid. Refer to Figure 7 for details.
JANUARY 2003
3F30918C
Page 14 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Pin Functions (Continued)
During Master Reset, setting BM1 low selects x18 input bus width. Set BM1 high selects x9 input bus
width. Refer to Table 10 for details.
BM1
BM0
ES
During Master Reset, set BM0 low to select x18 output bus width. Set BM0 high to select x9 output
bus width. Refer to Table 10 for details.
During Master Reset, Set ES high to select byte re-ordering on data outputs or set ES low to select no
byte re-ordering on data outputs. ES must be static throughout device operation. Refer to Table 10 for
details.
RET
Data previously read from the queue can be retransmitted by asserting RET pin at the low to high
transition of RCLK for a retransmit operation. Retransmit initializes the Read pointer to zero. Hence,
all re-reads will always start from the physical 0th (Read pointer = zero), location of the queue. Refer to
Diagram 7 & 8 for details.
RETZL
During Master Reset, set RETZL low to select zero latency retransmit or set RETZL high to select
normal latency retransmit.
FULL / DRDY
In Standard mode, queue is full when FULL goes low during the low to high transition of WCLK. This
prohibits further writes into the queue and prevents advancement of Write pointer. In FWFT mode,
queue is full when DRDY goes high during the low to high transition of WCLK. This prohibits further
writes into the queue and prevents advancement of Write pointer. Refer to Table 8 & 9 for behavior of
FULL / DRDY .
EMPTY / QRDY In Standard mode, queue is empty when EMPTY goes low during the low to high transition of RCLK.
This prohibits further reads from the queue and prevents advancement of Read pointer. In FWFT mode,
queue is empty when QRDY goes high during the low to high transition of RCLK. This prohibits
further reads from the queue and prevents advancement of Read pointer. Refer to Table 8 & 9 for
behavior of EMPTY / QRDY .
During Master Reset, set IPAR low to select 9-bit parallel programming mode or set IPAR high to
select 8-bit parallel programming mode. In 9-bit mode, 9-bit wide data input/output bus width is used
for storing/fetching offset values. In 8-bit mode, 8-bit wide data input/output bus is used for
storing/fetching offset values.
IPAR
SFM
During Master Reset, set SFM high to select Synchronous Partial Flag mode or set SFM low to select
Asynchronous Partial Flag mode. In Synchronous mode, PRAF and PRAE are synchronous to WCLK
and RCLK respectively. In Asynchronous mode, WCLK synchronizes the assertion of PRAF and de-
assertion of PRAE RCLK synchronizes the assertion of PRAE and de-assertion of PRAF .
.
PRAF
PRAE
HALF
In Synchronous mode, queue is almost full when PRAF goes low during the low to high transition of
WCLK. Default (Full-offset) or programmed offset values determine the status of PRAF . In
Asynchronous mode, PRAF is triggered by both WCLK and RCLK. Refer to Table 8 & 9 for behavior
of PRAF .
In Synchronous mode, queue is almost empty when PRAE goes low during the low to high transition of
RCLK. Default (Empty+offset) or programmed offset values determine the status of PRAE . In
Asynchronous timing mode, PRAE is triggered by both WCLK and RCLK. Refer to Table 8 & 9 for
behavior of PRAE .
Queue is more than half full when HALF goes low during the low to high transition of WCLK.
HALF goes high during low to high transition of RCLK when queue is less than half full. Refer to
Table 8 & 9 for details.
JANUARY 2003
3F30918C
Page 15 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV283
FQV273
FQV263
WCLK
RCLK
LOAD
WEN
REN
SDEN
FQV253
FQV243
Selection / Sequence
Parallel write to
Parallel write to offset
registers:
registers:
Empty Offset (Low Byte)
Empty Offset (High Byte)
Full Offset (Low Byte)
Full Offset (High Byte)
1. PRAE Low Byte
2. PRAE High Byte
3. PRAF Low Byte
4. PRAF High Byte
0
0
1
1
X
Parallel read from
Parallel read from offset
registers:
registers:
Empty Offset (Low Byte)
Empty Offset (High Byte)
Full Offset (Low Byte)
Full Offset (High Byte)
1. PRAE Low Byte
2. PRAE High Byte
3. PRAF Low Byte
4. PRAF High Byte
0
0
1
1
0
1
1
0
X
x9 to x9 Mode
Serial shift into registers:
32 bits for the FQV283
30 bits for the FQV273
28 bits for the FQV263
26 bits for the FQV253
24 bits for the FQV243
1 bit for each rising WCLK
edge
All Other Modes
Serial shift into registers:
30 bits for the FQV283
28 bits for the FQV273
26 bits for the FQV263
24 bits for the FQV253
22 bits for the FQV243
1 bit for each rising WCLK
edge
Starting with Empty Offset
(Low Byte)
Ending with Full Offset
(High Byte)
X
Starting with Empty Offset
(Low Byte)
Ending with Full Offset
(High Byte)
X
1
1
0
1
1
X
X
X
No Operation
Write Memory
X
X
1
1
X
1
0
1
X
X
X
X
Read Memory
No Operation
X
Figure 7. Programmable Flag Offset Programming Sequence (FQV283, FQV273, FQV263, FQV253 and FQV243)
JANUARY 2003
3F30918C
Page 16 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV2113
FQV2103
WCLK
RCLK
SDEN
LOAD
REN
WEN
FQV293
Selection / Sequence
Parallel write to
Parallel write to offset
registers:
registers:
Empty Offset (Low Byte)
Empty Offset (Mid Byte)
Empty Offset (High Byte)
Full Offset (Low Byte)
Full Offset (Mid Byte)
Full Offset (High Byte)
1. PRAE Low Byte
2. PRAE Mid Byte
3. PRAE High Byte
4. PRAF Low Byte
5. PRAF Mid Byte
6. PRAF High Byte
0
0
1
1
X
Parallel read from
Parallel read from offset
registers:
registers:
Empty Offset (Low Byte)
Empty Offset (Mid Byte)
Empty Offset (High Byte)
Full Offset (Low Byte)
Full Offset (Mid Byte)
Full Offset (High Byte)
1. PRAE Low Byte
2. PRAE Mid Byte
3. PRAE High Byte
4. PRAF Low Byte
5. PRAF Mid Byte
6. PRAF High Byte
0
0
1
1
0
1
1
0
X
x9 to x9 Mode
Serial shift into registers:
38 bits for the FQV2113
36 bits for the FQV2103
34 bits for the FQV293
1 bit for each rising WCLK
edge
Starting with Empty Offset
(Low Byte)
Ending with Full Offset
(High Byte)
All Other Modes
Serial shift into registers:
36 bits for the FQV2113
34 bits for the FQV2103
32 bits for the FQV293
1 bit for each rising WCLK
edge
Starting with Empty Offset
(Low Byte)
Ending with Full Offset
(High Byte)
X
X
1
1
0
1
1
X
X
X
No Operation
X
X
Write Memory
1
1
X
1
0
1
X
X
X
X
Read Memory
No Operation
X
Figure 8. Programmable Flag Offset Programming Sequence (FQV2113, FQV2103, FQV293)
JANUARY 2003
3F30918C
Page 17 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Device
PRAF Programming (bits)
PRAE Programming (bits)
D/Q15 - 0
Non-IPAR
D/Q15 - 0
Non-IPAR
FQV2113
D/Q16 – 9 & D/Q7 – 0
D/Q15 - 0
IPAR
D/Q16 – 9 & D/Q7 – 0
D/Q15 - 0
IPAR
Non-IPAR
IPAR
Non-IPAR
IPAR
FQV2103
FQV293
FQV283
FQV273
FQV263
FQV253
FQV243
D/Q16 – 9 & D/Q7 – 0
D/Q15 - 0
D/Q16 – 9 & D/Q7 – 0
D/Q15 - 0
Non-IPAR
IPAR
Non-IPAR
IPAR
D/Q16 – 9 & D/Q7 – 0
D/Q14 - 0
D/Q16 – 9 & D/Q7 – 0
D/Q14 - 0
Non-IPAR
IPAR
Non-IPAR
IPAR
D/Q15 – 9 & D/Q7 – 0
D/Q13 - 0
D/Q15 – 9 & D/Q7 – 0
D/Q13 - 0
Non-IPAR
IPAR
Non-IPAR
IPAR
D/Q14 – 9 & D/Q7 – 0
D/Q12 - 0
D/Q14 – 9 & D/Q7 – 0
D/Q12 - 0
Non-IPAR
IPAR
Non-IPAR
IPAR
D/Q13 – 9 & D/Q7 – 0
D/Q11 - 0
D/Q13 – 9 & D/Q7 – 0
D/Q11 - 0
Non-IPAR
IPAR
Non-IPAR
IPAR
D/Q12 – 9 & D/Q7 – 0
D/Q10 - 0
D/Q12 – 9 & D/Q7 – 0
D/Q10 - 0
Non-IPAR
IPAR
Non-IPAR
IPAR
D/Q11 – 9 & D/Q7 – 0
D/Q11 – 9 & D/Q7 – 0
Condition Applies to: Write Cycle with x18 input Bus Width and/or
Read Cycle with x18 output Bus Width
Device
PRAF Programming (bits)
D/Q7 - 0
PRAE Programming (bits)
Low Byte
Mid Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
D/Q7 - 0
D/Q7 - 0
D/Q1 - 0
D/Q7 - 0
D/Q7 - 0
D/Q 0
Low Byte
FQV2113
D/Q7 - 0
D/Q1 - 0
D/Q7 - 0
D/Q7 - 0
D/Q0
D/Q7 - 0
D/Q7 - 0
D/Q7 - 0
D/Q6 - 0
D/Q7 - 0
D/Q5 - 0
D/Q7 - 0
D/Q4 - 0
D/Q7 - 0
D/Q3 - 0
D/Q7 - 0
D/Q2 - 0
Mid Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
FQV2103
D/Q7 - 0
D/Q7 - 0
D/Q7 - 0
D/Q6 - 0
D/Q7 - 0
D/Q5 - 0
D/Q7 - 0
D/Q4 - 0
D/Q7 - 0
D/Q3 - 0
D/Q7 - 0
D/Q2 - 0
FQV293
FQV283
FQV273
FQV263
FQV253
FQV243
Condition Applies to: Write Cycle with x9 input Bus Width or
Read Cycle with x9 output Bus Width (except x9 to x9 mode)
JANUARY 2003
3F30918C
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Page 18 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Device
PRAF Programming (bits)
PRAE Programming (bits)
D/Q7 - 0
D/Q7 - 0
D/Q7 - 0
D/Q2 - 0
D/Q7 - 0
D/Q7 - 0
D/Q1 - 0
D/Q7 - 0
D/Q7 - 0
D/Q0
D/Q7 - 0
D/Q7 - 0
D/Q7 - 0
D/Q6 - 0
D/Q7 - 0
D/Q5 - 0
D/Q7 - 0
D/Q4 - 0
D/Q7 - 0
D/Q3 - 0
Low Byte
Mid Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
Mid Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
Low Byte
High Byte
FQV2113
D/Q7 - 0
D/Q2 - 0
D/Q7 - 0
D/Q7 - 0
D/Q1 - 0
D/Q7 - 0
D/Q7 - 0
D/Q0
D/Q7 - 0
D/Q7 - 0
D/Q7 - 0
D/Q6 - 0
D/Q7 - 0
D/Q5 - 0
D/Q7 - 0
D/Q4 - 0
D/Q7 - 0
D/Q3 - 0
FQV2103
FQV293
FQV283
FQV273
FQV263
FQV253
FQV243
Condition Applies to: Write Cycle with x9 input Bus Width and
Read Cycle with x9 output Bus Width (only x9 to x9 mode)
Table 6. Parallel Offset Write/Read Cycle Register Location
Device
Standard Mode
FWFT Mode
FQV2113
FQV2103
FQV293
FQV283
FQV273
FQV263
FQV253
FQV243
262,144 x 18 / 524,288 x9 262,145 x 18 / 524,289 x9
131,072 x 18 / 262,144 x9 131,073 x 18 / 262,145 x 9
65,536 x 18 / 131,072 x 9
32,768 x 18 / 65,536 x 9
16,384 x 18 / 32,768 x 9
8,192 x 18 / 16,384 x 9
4,096 x 18 / 8,192 x 9
2,048 x 18 / 4,096 x 9
65,537,x 18 / 131,073 x 9
32,769 x 18 / 65,537 x 9
16,385 x 18 / 32,769 x 9
8,193 x 18 / 16,385 x 9
4,097 x 18 / 8,193 x 9
2,049 x 18 / 4,097 x 9
Table 7. Maximum Depth of Queue for Standard and FWFT Mode
JANUARY 2003
3F30918C
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Page 19 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
D/Q8 D/Q7 D/Q6 D/Q5 D/Q4 D/Q3 D/Q2 D/Q1 D/Q0
Data Width
7
6
5
3
1
4
2
0
8
1st Cycle PRAE Low Byte
15
14
13
12
11
10
9
High Byte
PRAE
2nd Cycle
7
6
5
3
1
4
2
0
8
PRAF
3rd Cycle
4th Cycle
Low Byte
15
14
13
12
11
10
9
PRAF High Byte
FQV293, FQV283, FQV273, FQV263, FQV253, FQV243
Parallel Offset Write/Read Cycles for x9 Bus Width
Condtion Applies to: Write Cycle with x9 input Bus Width
and/or Read Cycle output with x9 Bus Width
(except FQV293 x9 to x9 mode)
D/Q8 D/Q7 D/Q6 D/Q5 D/Q4 D/Q3 D/Q2 D/Q1 D/Q0
Data Width
1
7
6
5
4
3
2
0
PRAE Low Byte
1st Cycle
2nd Cycle
15
14
13
12
11
10
9
8
PRAE
Mid Byte
18
17
16
3rd Cycle PRAE High Byte
1
7
6
5
4
3
2
0
Low Byte
Mid Byte
High Byte
PRAF
4th Cycle
15
14
13
12
11
10
9
8
5th Cycle PRAF
6th Cycle PRAF
18
17
16
FQV2113, FQV2103, FQV293
Parallel Offset Write/Read Cycles for x9 Bus Width
Condtion Applies to: FQV293 x9 to x9 mode or
FQV2113, FQV2103 for all modes
x9 to x9 Mode
All Other Modes
# of Bits for Offset Registers
# of Bits for Offset Registers
19 bits for FQV2113
18 bits for FQV2103
17 bits for FQV293
16 bits for FQV283
15 bits for FQV273
14 bits for FQV263
13 bits for FQV253
12 bits for FQV243
18 bits for FQV2113
17 bits for FQV2103
16 bits for FQV293
15 bits for FQV283
14 bits for FQV273
13 bits for FQV263
12 bits for FQV253
11 bits for FQV243
Note: Don’t Care applies to all unused bits
Note: Don’t Care applies to all unused bits
Figure 9. Parallel Offset Write/Read Cycle Diagram
JANUARY 2003
3F30918C
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Page 20 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
D/Q17 D/Q16 D/Q15 D/Q14 D/Q13 D/Q12 D/Q11 D/Q10 D/Q9 D/Q8 D/Q7 D/Q6 D/Q5 D/Q4 D/Q3 D/Q2 D/Q1 D/Q0
Data Width
1st Cycle PRAE
7
7
6
6
5
5
4
4
3
3
2
2
1
1
0
0
15
14
14
13
13
12
12
11
11
10
10
9
9
8
8
Non-Interspersed Parity
15
Interspersed Parity
Data Width
D/Q17 D/Q16 D/Q15 D/Q14 D/Q13 D/Q12 D/Q11 D/Q10 D/Q9 D/Q8 D/Q7 D/Q6 D/Q5 D/Q4 D/Q3 D/Q2 D/Q1 D/Q0
2nd Cycle PRAF
Non-Interspersed Parity
7
7
6
6
5
5
4
4
3
3
2
2
1
1
0
0
15
14
14
13
13
12
12
11
11
10
10
9
9
8
8
Interspersed Parity
15
FQV293, FQV283, FQV273, FQV263, FQV253, FQV243
Parallel Offset Write/Read Cycles for x18 Bus Width
Condtion Applies to: Write Cycle with x18 input Bus Width
and/or Read Cycle for x18 output Bus Width
D/Q17 D/Q16 D/Q15 D/Q14 D/Q13 D/Q12 D/Q11 D/Q10 D/Q9 D/Q8 D/Q7 D/Q6 D/Q5 D/Q4 D/Q3 D/Q2 D/Q1 D/Q0
Data Width
1st Cycle
PRAE
7
7
6
6
5
5
4
4
3
3
2
2
1
1
0
0
15
14
14
13
13
12
12
11
11
10
10
9
9
8
8
Non-Interspersed Parity
15
Interspersed Parity
2nd CyclePRAE
17
17
16
16
Non-Interspersed Parity
Interspersed Parity
3rd Cycle PRAF
7
7
6
6
5
5
4
4
3
3
2
2
1
1
0
0
15
14
14
13
13
12
12
11
11
10
10
9
9
8
8
Non-Interspersed Parity
15
Interspersed Parity
4th Cycle
PRAF
17
17
16
16
Non-Interspersed Parity
Interspersed Parity
FQV2113, FQV2103
Parallel Offset Write/Read Cycles for x18 Bus Width
Condtion Applies to: Write Cycle with x18 input Bus Width
and/or Read Cycle for x18 output Bus Width
Figure 9. Parallel Offset Write/Read Cycles Diagram (Continued)
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV2113
BM1 = BM0 = x9
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y(1)
(y+1) to 262,144
262,145 to [524,288-(x+1)]
(524,288 -x(1)) to 524,287
524,288
H
H
H
H
L
FQV2103
FQV2113
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 131,072
H
H
H
H
131,073 to [262,144-(x+1)]
(262,144 -x) to 262,143
262,144
L
FQV293
FQV2103
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 65,536
H
H
H
H
65,537 to [131,072-(x+1)]
(131,072 -x) to 131,071
131,072
L
FQV283
FQV293
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 32,768
32,769 to [65,536-(x+1)]
(65,536 -x) to 65,535
65,536
H
H
H
H
L
FQV273
FQV283
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 16,384
16,385 to [32,768-(x+1)]
(32,768 -x) to 32,767
32,768
H
H
H
H
L
NOTES:
1.
See Table 11 for values x, y.
Table 8. Status Flags (Standard Mode)
JANUARY 2003
3F30918C
Page 22 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV263
FQV273
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 8,192
8,193 to [16,384-(x+1)]
(16,384 –x) to 16,383
16,384
H
H
H
H
L
FQV253
FQV263
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 4,096
4,097 to [8,192-(x+1)]
(8,192 –x) to 8,191
8,192
H
H
H
H
L
FQV243
FQV253
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 2,048
2,049 to [4,096-(x+1)]
(4,096 –x) to 4,095
4,096
H
H
H
H
L
FQV243
BM1 ≠ BM0 or BM1 = BM0 = x18
FULL
EMPTY
PRAF
HALF
PRAE
0
H
H
H
H
H
L
H
H
H
H
L
H
H
H
L
L
L
L
L
L
H
H
H
H
H
1 to y
(y+1) to 1,024
1,025 to [2,048-(x+1)]
(2,048–x) to 2,047
2,048
H
H
H
H
L
NOTES:
1.
See Table 11 for values x, y.
Table 8. Status Flags (Standard Mode) (Continued)
JANUARY 2003
3F30918C
Page 23 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV2113
BM1 = BM0 = x9
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1(1)
(y+2) to 262,145
262,146 to [524,289-(x+1)]
(524,289-x(1)) to 524,288
524,289
H
H
H
H
L
FQV2103
FQV2113
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 131,073
H
H
H
H
131,074 to [262,145-(x+1)]
(262,145-x) to 262,144
262,145
L
FQV293
FQV2103
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 65,537
H
H
H
H
65,538 to [131,073-(x+1)]
(131,073-x) to 131,072
131,073
L
FQV283
FQV293
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 32,769
32,770 to [65,537-(x+1)]
(65,537 -x) to 65,536
65,537
H
H
H
H
L
FQV273
FQV283
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 16,385
16,386 to [32,769-(x+1)]
(32,769-x) to 32,768
32,769
H
H
H
H
L
NOTES:
1.
See Table 11 for values x, y.
Table 9. Status Flags (FWFT Mode)
JANUARY 2003
3F30918C
Page 24 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV263
FQV273
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 8,193
8,194 to [16,385-(x+1)]
(16,385 -x) to 16,384
16,385
H
H
H
H
L
FQV253
FQV263
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 4,097
4,098 to [8,193-(x+1)]
(8,193 -x) to 8,192
8,193
H
H
H
H
L
FQV243
FQV253
BM1 = BM0 = x9
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 2,049
2,050 to [4,097-(x+1)]
(4,097-x) to 4,096
4,097
H
H
H
H
L
FQV243
BM1 ≠ BM0 or BM1 = BM0 = x18
QRDY
DRDY
PRAF
HALF
PRAE
H
H
H
L
L
L
0
L
L
L
L
L
H
H
H
H
H
L
L
L
H
L
L
L
L
L
1 to y+1
(y+2) to 1,025
1,026 to [2,049 -(x+1)]
(2,049 -x) to 2,048
2,049
H
H
H
H
L
NOTES:
1.
See Table 11 for values x, y.
Table 9. Status Flags (FWFT Mode) (Continued)
JANUARY 2003
3F30918C
Page 25 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
ES
BM1
BM0
I/O
Width
D/Q17 - 9
D/Q8 – 0
Sequence
0
0
0
I
O
18
18
Byte 2
Byte 2
Byte 1
Byte 1
1st Write
1st Read
0
0
0
1
1
1
0
1
I
O
18
9
Byte 2
X
X
Byte 1
Byte 2
Byte 1
1st Write
1st Read
2nd Read
I
O
I
9
18
9
X
X
Byte 2
Byte 2
Byte 1
Byte 1
1st Write
2nd Write
1st Read
X
X
X
X
X
Byte 2
Byte 1
Byte 2
Byte 1
1st Write
2nd Write
1st Read
2nd Read
O
9
1
1
0
0
0
1
I
O
18
18
Byte 2
Byte 1
Byte 1
Byte 2
1st Write
1st Read
I
O
18
9
Byte 2
X
X
Byte 1
Byte 1
Byte 2
1st Write
1st Read
2nd Read
1
1
0
I
9
X
X
Byte 1
Byte 2
Byte 1
Byte 2
1st Write
2nd Read
1st Read
O
18
Table 10. Bus-Matching Table
JANUARY 2003
3F30918C
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Page 26 of 43
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
FQV273
FQV243
FQV263
Offsets x, y
FQV253
PFS0
PFS1
LOAD
All Other
Modes
x9 to x9 Mode
Offsets x, y
0
0
0
0
1
1
1
1
1
0
0
0
0
1
127
511
255
63
31
15
7
127
511
255
63
127
511
255
63
1
0
1
1
0
0
1,023
31
1,023
31
0
1
1
0
15
15
1
1
3
7
7
X
X
X
X
Serial
Parallel
FQV2113
FQV2103
FQV293
FQV283
Offsets x, y
PFS0
PFS1
LOAD
All Other
x9 to x9 Mode
Offsets x, y
Modes
0
0
0
0
1
1
1
1
1
0
0
0
0
1
127
127
16,383
8,191
4,095
1,023
2,047
511
127
16,383
8,191
4,095
1,023
2,047
511
511
255
63
1
0
1
1
0
0
1,023
31
0
1
1
0
15
1
1
7
255
255
X
X
X
X
Serial
Parallel
NOTES:
1.
x = PRAF offset, y = PRAE offset.
Table 11. Default Programmable Flag Offsets
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Timing Diagrams
tRST
MRST
tRSTR
tRSTR
tRSTS
tRSTS
tRSTS
tRSTS
tRSTS
REN
WEN
tRSTR
FWFT/SDI
tRSTR
LOAD
PFS1/PFS0
tRSTS
BM1/BM0
ES
tRSTS
tRSTS
tRSTS
tRSTS
tRSTS
tRSTS
RETZL
SFM
IPAR
RET
SDEN
tRSTF
tRSTF
tRSTF
tRSTF
tRSTF
If FWFT = 1,QRDY = 1
If FWFT = 0,EMPTY= 0
EMPTY/QRDY
FULL/ DRDY
PRAE
If FWFT = 0,FULL = 1
If FWFT = 1,DRDY = 0
PRAF, HALF
OE = 1
OE = 0
Q17- 0
Diagram 1. Master Reset Timing
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
tRST
PRST
REN
tRSTR
tRSTR
tRSTS
tRSTS
tRSTS
tRSTS
WEN
RET
SDEN
EMPTY/QRDY
FULL/ DRDY
PRAE
tRSTF
tRSTF
tRSTF
tRSTF
tRSTF
If FWFT = 1,QRDY = 1
If FWFT = 0,EMPTY= 0
If FWFT = 0,FULL = 1
If FWFT = 1,
= 0
DRDY
PRAF, HALF
OE = 1
OE = 0
Q17 - 0
Diagram 2. Partial Reset Timing
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
JANUARY 2003
3F30918C
Page 32 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
JANUARY 2003
3F30918C
Page 33 of 43
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
RCLK
REN
2
1
ENS
ENH
RETS
ENS
ENH
t
t
t
t
t
A
A
t
A
t
t
Q 17 - 0
DWi
DWi+1
DW1
DW2
SKEW2
t
WCLK
WEN
1
2
RETS
t
ENS
ENH
t
t
RET
EMPTY
PRAE
EMPTY
EMPTY
t
t
PRAES
t
HALF
t
HALF
PRAFS
t
PRAF
NOTES:
1.
2.
3.
4.
Upon completion of retransmit setup, a read operation can begin only after EMPTY returns high.
OE = Low.
DWi = Words written to the queue after MRST . Where i = 1,2,3… depth.
Upon reset completion, there must be more than two words written to the queue for a retransmit setup to be valid.
Diagram 7. Retransmit Timing (Standard Mode)
JANUARY 2003
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
RCLK
REN
1
2
3
4
tENS
tENH
tRETS
tENS
tENH
tA
tA
tA
tA
Q 17 - 0
WCLK
WEN
DWi
DWi+1
DW1
DW2
DW3
DW4
tSKEW2
1
2
tRETS
tENS
tENH
RET
QRDY
PRAE
tEMPTY
tEMPTY
tPRAES
tHALF
HALF
PRAF
tPRAFS
NOTES:
1.
2.
3.
4.
5.
Upon completion of retransmit setup, a read operation can begin only after QRDY returns low.
OE = Low.
DWi = Words written to the queue after MRST . Where i = 1,2,3… depth.
Upon reset completion, there must be more than two words written to the queue for a retransmit setup to be valid.
Please refer to Table 7 for Depth.
Diagram 8. Retransmit Timing (FWFT Mode)
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
RCLK
1
2
3
tENS
tENH
REN
tA
tA
tA
tA
tA
Q 17 - 0
DWi+1
DW1
DW2
DW3
DW4
DWi
tSKEW2
WCLK
1
2
tRETS
WEN
RET
tENS
tENH
EMPTY
tPRAES
PRAE
HALF
tHALF
tPRAFS
PRAF
NOTES:
1.
If the part is empty at the point of retransmit, the Empty Flag ( EMPTY ) will be updated based on RCLK (Retransmit Clock cycle). Valid data will
appear on the output.
2.
3.
4.
OE = Low; enables data to be read on outputs Q17 – 0.
DW1= first word written to the queue after Master Reset; DW2= second word written to the queue after Master Reset.
No more than D-2 may be written to the queue between reset (Master or Partial) and retransmit setup. Therefore, FULL will be high throughout the
retransmit setup procedure. Please refer to Table 7 for Depth.
5.
6.
There must be at least two words written to zero latency retransmit from the queue before a retransmit operation can be invoked.
RETZL is set Low during MRST .
Diagram 9. Zero Latency Retransmit Timing (Standard Mode)
JANUARY 2003
3F30918C
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FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
RCLK
REN
1
2
3
4
5
tENH
tENS
tA
tA
tA
tA
tA
tA
DWi
DW i+1
DW1
DW2
DW3
DW4
Q 17 - 0
WCLK
WEN
DW5
tSKEW2
1
2
tRETS
tENS
tENH
RET
QRDY
tPRAES
PRAE
HALF
tHALF
tPRAFS
PRAF
NOTES:
1.
If the part is empty at the point of retransmit, the output ready flag ( QRDY ) will be updated based on RCLK (Retransmit Clock cycle). Valid data will
appear on the output.
2.
No more than D-2 words may be written to the queue between reset (Master or Partial) and retransmit setup. Therefore, DRDY will be low throughout
the retransmit setup procedure. Please refer to Table 7 for Depth.
3.
4.
5.
6.
OE = Low.
DW1, DW2, DW3 = first, second and third words written to the queue after Master Reset.
There must be at least two words written to the queue before a retransmit operation can be invoked.
RETZL is set low during MRST .
Diagram 10. Zero Latency Retransmit Timing (FWFT Mode)
JANUARY 2003
3F30918C
Page 37 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
WCLK
SDEN
tENS
tLOADS
tDS
tENH
tENH
tLOADH
tDH
tLOADH
LOAD
SDI
BIT 0
BIT MSB
BIT 0
BIT MSB
PRAE
Offset
PRAF Offset
*Refer to Table 12
Diagram 11. Serial Loading of Programmable Flag Registers (Standard and FWFT Mode)
FQV21113 FQV2103 FQV293 FQV283 FQV273 FQV263 FQV253 FQV243
MSB for x9 to x9
18
17
17
16
16
15
15
14
14
13
13
12
12
11
11
10
MSB for All
Other Modes
Table 12. Reference Table for Diagram 11
JANUARY 2003
3F30918C
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© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
tWCLK
tWCLKH
tWCLKL
WCLK
tLOADS
tLOADH
tLOADH
tENH
LOAD
tENS
tDS
tENH
WEN
tDH tDS
tDH tDS
tDH tDS
tDH
D 17 - 0
PRAE offset
(Low Byte)
PRAE offset
(High Byte)
PRAF offset
(Low Byte)
PRAF offset
(High Byte)
NOTES:
1.
Based on programming the x18 bus width. For the x9 bus width, add one extra cycle to both _P__R___A___E__ and _P__R___A___F__ offsets.
Diagram 12. Parallel Loading of Programmable Flag Registers (Standard and FWFT Mode)
tRCLK
tRCLKH
tRCLKL
RCLK
tLOADH
tENH
tLOADS
tENS
tLOADH
LOAD
REN
tENH
tA
tA
tA
tA
Q 17 - 0
Data Output Register
PRAE offset
(Low Byte)
PRAE offset
(High Byte)
PRAF offset
(Low Byte)
PRAF offset
(High Byte)
NOTES:
1.
Based on programming the x18 bus width. For the x9 bus width, add one extra cycle to both _P__R___A___E__ and _P__R___A___F__ offsets.
Diagram 13. Parallel Read of Programmable Flag Registers (Standard and FWFT Mode)
JANUARY 2003
3F30918C
Page 39 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
tWCLKH
tWCLKL
WCLK
1
2
1
2
tENS
tENH
WEN
tPRAFS
tPRAFS
D - ( x + 1 ) words
in Queue
PRAF
D- x words in Queue
D- ( x + 1 ) words in Queue
tSKEW2
RCLK
REN
tENS
tENH
NOTES:
1.
2.
3.
x = _P__R___A___F__ offset.
D = maximum queue depth. Please refer to Table 7 for Depth.
___________
If the time between a rising edge of RCLK to the rising edge of WCLK is greater or equal than tSKEW2, PRAF will go high (after one WCLK cycle plus
tPRAFS). If tSKEW2 is not met, then _P__R___A___F__ will assert 1 or more WCLK cycles.
___________
4.
PRAF synchronizes to the rising edge of WCLK only.
Diagram 14. Synchronous Programmable Almost-Full Flag Timing (Standard and FWFT Mode)
tWCLKH
tWCLKL
WCLK
tENS
tENH
WEN
y words in Queue(2)
y+1 words in Queue(3)
;
y words in Queue(2) ; y+1 words in Queue(3)
y+1 words in Queue(2) ; y+2 words in Queue(3)
PRAE
tSKEW2
tPRAES
tPRAES
RCLK
REN
1
2
1
2
tENS
tENH
NOTES:
1.
2.
3.
4.
y = _P__R___A___E__ offset.
For Standard Mode.
For FWFT Mode.
If the time between a rising edge of WCLK to the rising edge of RCLK is greater or equal than tSKEW2, _P__R___A___E__ will go high (after one RCLK cycle plus
tPRAES). If tSKEW2 is not met, then _P__R___A___E__ will assert 1 or more RCLK cycles.
___________
5.
PRAE synchronizes to the rising edge of RCLK only.
Diagram 15. Synchronous Programmable Almost-Empty Flag Timing (Standard and FWFT Mode)
JANUARY 2003
3F30918C
Page 40 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
tWCLKH
tWCLKL
WCLK
WEN
tENS
tENH
tPRAFA
D - x words in
D - ( x + 1) words in Queue
D - ( x + 1) words in Queue
Queue
PRAF
RCLK
tPRAFA
tENH
tENS
REN
NOTES:
1.
2.
3.
4.
x = _P__R___A___F__ offset.
D = maximum queue depth. Please refer to Table 7 for Depth.
___________
PRAF is asserted to low on WCLK transition and reset to high on RCLK transition.
Select this mode by setting SFM low during Master Reset.
Diagram 16. Asynchronous Programmable Almost-Full Flag Timing (Standard and FWFT Mode)
tWCLKH
tWCLKL
WCLK
WEN
tENS
tENH
tPRAEA
y words in Queue(2); y+1 words in Queue(3)
y words in Queue(2); y+1 words in Queue(3)
y+1 words in
Queue(2); y+2
PRAE
RCLK
words in Queue (3)
tPRAEA
tENH
tENS
REN
NOTES:
1.
2.
3.
4.
5.
y = _P__R___A___E__ offset.
For Standard Mode.
For FWFT Mode.
___________
PRAE is asserted to low on RCLK transition and reset to high on WCLK transition.
Select this mode by setting SFM low during Master Reset.
Diagram 17. Asynchronous Programmable Almost-Empty Flag Timing (Standard and FWFT Mode)
JANUARY 2003
3F30918C
Page 41 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
tWCLKH
tWCLKL
WCLK
WEN
tENS
tENH
D/2 + 1 words in
Queue(1)
;
tHALF
[(D+1)/2 + 1] words
in Queue(2)
D/2 words in Queue(1); [(D+1)/2] words in Queue(2)
HALF
RCLK
D/2 words in Queue(1)
[(D+1)/2] words in Queue(2)
;
tHALF
tENS
tENH
REN
NOTES:
1.
2.
3.
For Standard Mode.
For FWFT Mode.
Please refer to Table 7 for Depth.
Diagram 18. Half-Full Flag Timing (Standard and FWFT Mode)
JANUARY 2003
3F30918C
Page 42 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
FQV2113 · FQV2103 · FQV293 · FQV283 · FQV273 · FQV263 · FQV253· FQV243
FlexQTMIII
Order Information:
HBA
Device Type
Power Speed (ns) *
Package** Temperature Range
Device Family
XX
FQ
XXXXX
X
Low
XX
6
XX
PF
X
V2113 (524,288 x 9)
– 166 MHz
Blank – Commercial (0°C to 70°C)
(262,144 x 18)
V2103 (262,144 x 9)
(131,072 x 18)
7-5 – 133 MHz
10 – 100 MHz
15 – 66 MHz
I – Industrial (-40° to 85°C)
V293 (131,072 x 9)
(65,536 x 18)
V283 (65,536 x 9)
(32,768 x 18)
V273 (32,768 x 9)
(16,384 x 18)
V263 (16,384 x 9)
(8,192 x 18)
V253 (8,192 x 9)
(4,096 x 18)
V243 (4,096 x 9)
(2,048 x 18)
*Speed – 6ns available only in Commercial temp (0°C to 70°C). Slower speeds available upon request.
**Package – 80 pin Plastic Thin Quad Flat Pack (TQFP)
Example:
FQV283L6PF
(64k x 9, 6ns, Commercial temp)
(32k x 9, 10ns, Industrial temp)
FQV273L10PFI
Document Revision History:
02/26/03 pg. 1, 2, 3, 5, 6, 7, 8, 9, 10, 13, 14, 15, 20, 21, 24, 25, 27, 28, 29, 30, 31, 32, 34, 38, 39, 40, 41, 42
USA
Taiwan
2107 North First Street, Suite 415
San Jose, CA 95131, USA
www.hba.com
Tel: 408.453.8885
Fax: 408.453.8886
No. 81, Suite 8F-9, Shui-Lee Rd.
Hsinchu, Taiwan, R.O.C.
www.hba.com
Tel: 886.3.516.9118
Fax: 886.3.516.9181
JANUARY 2003
3F30918C
Page 43 of 43
© 2003 High Bandwidth Access, Inc. All rights reserved. Product specifications subject to change without notice.
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