CYPRESS CY7C4235V

CY7C4425V /4205V/4215V CY7C4225V /4235V/4245V64/256/512/1K/2K/4K x18 Low-Voltage Synchronous FIFOs
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
64/256/512/1K/2K/4K x18 Low-Voltage Synchronous FIFOs
Features
Functional Description
• 3.3V operation for low power consumption and easy
integration into low-voltage systems
• High-speed, low-power, first-in first-out (FIFO)
memories
• 64 x 18 (CY7C4425V)
• 256 x 18 (CY7C4205V)
• 512 x 18 (CY7C4215V)
The CY7C42X5V are high-speed, low-power, first-in first-out
(FIFO) memories with clocked read and write interfaces. All
are 18 bits wide. The CY7C42X5V can be cascaded to
increase FIFO depth. Programmable features include Almost
Full/Almost Empty flags. These FIFOs provide solutions for a
wide variety of data buffering needs, including high-speed data
acquisition, multiprocessor interfaces, and communications
buffering.
These FIFOs have 18-bit input and output ports that are
controlled by separate clock and enable signals. The input port
is controlled by a Free-Running Clock (WCLK) and a Write
Enable pin (WEN).
• 1K x 18 (CY7C4225V)
• 2K x 18 (CY7C4235V)
• 4K x 18 (CY7C4245V)
• 0.65µ CMOS
• High-speed 67-MHz operation (15-ns read/write cycle
times)
• Low power
— ICC = 30 mA
• 5V tolerant inputs (VIH MAX = 5V)
• Fully asynchronous and simultaneous read and write
operation
• Empty, Full, Half Full, and programmable Almost Empty
and Almost Full status flags
• TTL-compatible
• Retransmit function
• Output Enable (OE) pin
• Independent read and write enable pins
• Supports free-running 50% duty cycle clock inputs
• Width-Expansion Capability
• Depth-Expansion Capability
• 64-pin 14 × 14 TQFP and 64-pin 10 × 10 STQFP
• Pb-Free packages available
When WEN is asserted, data is written into the FIFO on the
rising edge of the WCLK signal. While WEN is held active, data
is continually written into the FIFO on each cycle. The output
port is controlled in a similar manner by a Free-Running Read
Clock (RCLK) and a Read Enable pin (REN). In addition, the
CY7C42X5V have an Output Enable pin (OE). The read and
write clocks may be tied together for single-clock operation or
the two clocks may be run independently for asynchronous
read/write applications. Clock frequencies up to 66 MHz are
achievable.
Retransmit and Synchronous Almost Full/Almost Empty flag
features are available on these devices.
Depth expansion is possible using the Cascade Input (WXI,
RXI), Cascade Output (WXO, RXO), and First Load (FL) pins.
The WXO and RXO pins are connected to the WXI and RXI
pins of the next device, and the WXO and RXO pins of the last
device should be connected to the WXI and RXI pins of the
first device. The FL pin of the first device is tied to VSS and the
FL pin of all the remaining devices should be tied to VCC.
The CY7C42X5V provides five status pins. These pins are
decoded to determine one of five states: Empty, Almost Empty,
Half Full, Almost Full, and Full (see Table 2). The Half Full flag
shares the WXO pin. This flag is valid in the stand-alone and
width-expansion configurations. In the depth expansion, this
pin provides the expansion out (WXO) information that is used
to signal the next FIFO when it will be activated.
The Empty and Full flags are synchronous, i.e., they change
state relative to either the Read Clock (RCLK) or the write
clock (WCLK). When entering or exiting the Empty states, the
flag is updated exclusively by the RCLK. The flag denoting Full
states is updated exclusively by WCLK. The synchronous flag
architecture guarantees that the flags will remain valid from
one clock cycle to the next. As mentioned previously, the
Almost Empty/Almost Full flags become synchronous if the
VCC/SMODE is tied to VSS. All configurations are fabricated
using an advanced 0.65µ P-Well CMOS technology. Input
ESD protection is greater than 2001V, and latch-up is
prevented by the use of guard rings.
Cypress Semiconductor Corporation
Document #: 38-06029 Rev. *C
•
198 Champion Court
•
San Jose, CA 95134-1709
•
408-943-2600
Revised September 7, 2005
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
D0–17
Logic Block Diagram
INPUT
REGISTER
WCLK
WEN
FLAG
PROGRAM
REGISTER
WRITE
CONTROL
RAM
ARRAY
64 x 18
256 x 18
512 x 18
1K x 18
2K x 18
4K x 18
WRITE
POINTER
RS
FF
EF
FLAG
LOGIC
PAE
PAF
SMODE
READ
POINTER
RESET
LOGIC
FL/RT
WXI
WXO/HF
RXI
RXO
THREE–STATE
OUTPUT REGISTER
EXPANSION
LOGIC
READ
CONTROL
OE
Q0–17
RCLK
REN
Pin Configuration
Document #: 38-06029 Rev. *C
REN
LD
OE
RS
VCC
GND
EF
Q17
Q16
GND
Q15
VCC/SMODE
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
Q14
Q13
GND
Q12
Q11
VCC
Q10
Q9
GND
Q8
Q7
Q6
Q5
GND
Q4
VCC
Q3
Q0
Q1
GND
Q2
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
CY7C4425V
CY7C4205V
CY7C4215V
CY7C4225V
CY7C4235V
CY7C4245V
PAE
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
FL/RT
WCLK
WEN
WXI
VCC
PAF
RXI
FF
WXO/HF
RXO
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
D16
D17
GND
RCLK
STQFP/TQFP
Top View
Page 2 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Selection Guide
Maximum Frequency
CY7C42X5V-15
CY7C42X5V-25
CY7C42X5V-35
Unit
66.7
40
28.6
MHz
Maximum Access Time
11
15
20
ns
Minimum Cycle Time
15
25
35
ns
Minimum Data or Enable Set-up
4
6
7
ns
Minimum Data or Enable Hold
1
1
2
ns
Maximum Flag Delay
11
15
20
ns
30
30
30
mA
Operating Current
CY7C4425V
CY7C4205V
CY7C4215V
CY7C4225V
CY7C4235V
CY7C4245V
64 x 18
256 x 18
512 x 18
1K x 18
2K x 18
4K x 18
64-pin 14x14
TQFP
64-pin 10x10
STQFP
64-pin 14x14
TQFP
64-pin 10x10
STQFP
64-pin 14x14
TQFP
64-pin 10x10
STQFP
64-pin 14x14
TQFP
64-pin 10x10
STQFP
64-pin 14x14
TQFP
64-pin 10x10
STQFP
64-pin 14x14
TQFP
64-pin 10x10
STQFP
Density
Packages
Commercial
Pin Definitions
Signal Name
Description
I/O
Function
D0−17
Data Inputs
I
Data inputs for an 18-bit bus.
Q0−17
Data Outputs
O
Data outputs for an 18-bit bus.
WEN
Write Enable
I
Enables the WCLK input.
REN
Read Enable
I
Enables the RCLK input.
WCLK
Write Clock
I
The rising edge clocks data into the FIFO when WEN is LOW and the FIFO is
not Full. When LD is asserted, WCLK writes data into the programmable
flag-offset register.
RCLK
Read Clock
I
The rising edge clocks data out of the FIFO when REN is LOW and the FIFO is
not Empty. When LD is asserted, RCLK reads data out of the programmable
flag-offset register.
WXO/HF
Write Expansion
Out/Half Full Flag
O
Dual-Mode Pin. Single device or width expansion - Half Full status flag. Cascaded –
Write Expansion Out signal, connected to WXI of next device.
EF
Empty Flag
O
When EF is LOW, the FIFO is empty. EF is synchronized to RCLK.
FF
Full Flag
O
When FF is LOW, the FIFO is full. FF is synchronized to WCLK.
PAE
Programmable
Almost Empty
O
When PAE is LOW, the FIFO is almost empty based on the almost empty
offset value programmed into the FIFO. PAE is asynchronous when
VCC/SMODE is tied to VCC; it is synchronized to RCLK when VCC/SMODE is tied
to VSS.
PAF
Programmable
Almost Full
O
When PAF is LOW, the FIFO is almost full based on the almost full offset
value programmed into the FIFO. PAF is asynchronous when VCC/SMODE is
tied to VCC; it is synchronized to WCLK when VCC/SMODE is tied to VSS.
LD
Load
I
When LD is LOW, D0−17 (O0−17) are written (read) into (from) the programmable-flag-offset register.
FL/RT
First Load/
Retransmit
I
Dual-Mode Pin. Cascaded – The first device in the daisy chain will have FL tied to
VSS; all other devices will have FL tied to VCC. In standard mode of width
expansion, FL is tied to VSS on all devices. Not Cascaded – Tied to VSS. Retransmit
function is also available in standalone mode by strobing RT.
WXI
Write Expansion
Input
I
Cascaded – Connected to WXO of previous device. Not Cascaded – Tied to VSS.
RXI
Read Expansion
Input
I
Cascaded – Connected to RXO of previous device. Not Cascaded – Tied to VSS.
Document #: 38-06029 Rev. *C
Page 3 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Pin Definitions (continued)
Signal Name
Description
I/O
Function
RXO
Read Expansion
Output
O
Cascaded – Connected to RXI of next device.
RS
Reset
I
Resets device to empty condition. A reset is required before an initial read or write
operation after power-up.
OE
Output Enable
I
When OE is LOW, the FIFO’s data outputs drive the bus to which they are
connected. If OE is HIGH, the FIFO’s outputs are in High Z (high-impedance)
state.
VCC/SMODE
Synchronous
Almost Empty/
Almost Full Flags
I
Dual-Mode Pin. Asynchronous Almost Empty/Almost Full flags – tied to VCC.
Synchronous Almost Empty/Almost Full flags – tied to VSS. (Almost Empty
synchronized to RCLK, Almost Full synchronized to WCLK.)
Architecture
Programming
The CY7C42X5V consists of an array of 64 to 4K words of 18
bits each (implemented by a dual-port array of SRAM cells), a
read pointer, a write pointer, control signals (RCLK, WCLK,
REN, WEN, RS), and flags (EF, PAE, HF, PAF, FF). The
CY7C42X5V also includes the control signals WXI, RXI, WXO,
RXO for depth expansion.
The CY7C42X5V devices contain two 12-bit offset registers.
Data present on D0–11 during a program write will determine
the distance from Empty (Full) that the Almost Empty (Almost
Full) flags become active. If the user elects not to program the
FIFO’s flags, the default offset values are used (see Table 2).
When the Load LD pin is set LOW and WEN is set LOW, data
on the inputs D0–11 is written into the Empty offset register on
the first LOW-to-HIGH transition of the write clock (WCLK).
When the LD pin and WEN are held LOW then data is written
into the Full offset register on the second LOW-to-HIGH
transition of the Write Clock (WCLK). The third transition of the
Write Clock (WCLK) again writes to the Empty offset register
(see Table 1). Writing all offset registers does not have to
occur at one time. One or two offset registers can be written
and then, by bringing the LD pin HIGH, the FIFO is returned to
normal read/write operation. When the LD pin is set LOW, and
WEN is LOW, the next offset register in sequence is written.
Resetting the FIFO
Upon power-up, the FIFO must be reset with a Reset (RS)
cycle. This causes the FIFO to enter the Empty condition
signified by EF being LOW. All data outputs go LOW after the
falling edge of RS only if OE is asserted. In order for the FIFO
to reset to its default state, a falling edge must occur on RS
and the user must not read or write while RS is LOW.
FIFO Operation
When the WEN signal is active (LOW), data present on the
D0-17 pins is written into the FIFO on each rising edge of the
WCLK signal. Similarly, when the REN signal is active LOW,
data in the FIFO memory will be presented on the Q0−17
outputs. New data will be presented on each rising edge of
RCLK while REN is active LOW and OE is LOW. REN must
set up tENS before RCLK for it to be a valid read function. WEN
must occur tENS before WCLK for it to be a valid write function.
An Output Enable (OE) pin is provided to three-state the Q0–17
outputs when OE is deasserted. When OE is enabled (LOW),
data in the output register will be available to the Q0−17 outputs
after tOE. If devices are cascaded, the OE function will only
output data on the FIFO that is read enabled.
The FIFO contains overflow circuitry to disallow additional
writes when the FIFO is full, and underflow circuitry to disallow
additional reads when the FIFO is empty. An empty FIFO
maintains the data of the last valid read on its Q0−17 outputs
even after additional reads occur.
The contents of the offset registers can be read on the output
lines when the LD pin is set LOW and REN is set LOW; then,
data can be read on the LOW-to-HIGH transition of the Read
Clock (RCLK).
Table 1. Write Offset Register
WCLK[1]
LD
WEN
0
0
Writing to offset registers:
Empty Offset
Full Offset
Selection
0
1
No Operation
1
0
Write Into FIFO
1
1
No Operation
Note:
1. The same selection sequence applies to reading from the registers. REN is enabled and read is performed on the LOW-to-HIGH transition of RCLK.
Document #: 38-06029 Rev. *C
Page 4 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Flag Operation
that the FIFO is either Almost Full or Almost Empty. See
Table 2 for a description of programmable flags.
The CY7C42X5V devices provide five flag pins to indicate the
condition of the FIFO contents. Empty and Full are
synchronous. PAE and PAF are synchronous if VCC/SMODE
is tied to VSS.
When the SMODE pin is tied LOW, the PAF flag signal
transition is caused by the rising edge of the write clock and
the PAE flag transition is caused by the rising edge of the read
clock.
Full Flag
Retransmit
The Full Flag (FF) will go LOW when device is Full. Write
operations are inhibited whenever FF is LOW regardless of the
state of WEN. FF is synchronized to WCLK, i.e., it is exclusively updated by each rising edge of WCLK.
Empty Flag
The Empty Flag (EF) will go LOW when the device is empty.
Read operations are inhibited whenever EF is LOW,
regardless of the state of REN. EF is synchronized to RCLK,
i.e., it is exclusively updated by each rising edge of RCLK.
Programmable Almost Empty/Almost Full Flag
The CY7C42X5V features programmable Almost Empty and
Almost Full Flags. Each flag can be programmed (described
in the Programming section) a specific distance from the corresponding boundary flags (Empty or Full). When the FIFO
contains the number of words or fewer for which the flags have
been programmed, the PAF or PAE will be asserted, signifying
The retransmit feature is beneficial when transferring packets
of data. It enables the receipt of data to be acknowledged by
the receiver and retransmitted if necessary.
The Retransmit (RT) input is active in the standalone and width
expansion modes. The retransmit feature is intended for use
when a number of writes equal to or less than the depth of the
FIFO have occurred since the last RS cycle. A HIGH pulse on
RT resets the internal read pointer to the first physical location
of the FIFO. WCLK and RCLK may be free running but must
be disabled during and tRTR after the retransmit pulse. With
every valid read cycle after retransmit, previously accessed
data is read and the read pointer is incremented until it is equal
to the write pointer. Flags are governed by the relative
locations of the read and write pointers and are updated during
a retransmit cycle. Data written to the FIFO after activation of
RT are transmitted also.
The full depth of the FIFO can be repeatedly retransmitted.
Table 2. Flag Truth Table
Number of Words in FIFO
7C4425V - 64 x 18
7C4205V - 256 x 18
7C4215V - 512 x 18
FF
PAF
HF
PAE
EF
0
0
0
H
H
H
L
L
1 to n[2]
1 to n[2]
1 to n[2]
H
H
H
L
H
(n + 1) to 32
(n + 1) to 128
(n + 1) to 256
H
H
H
H
H
33 to (64 − (m + 1))
129 to (256 − (m + 1))
257 to (512 − (m + 1))
H
H
L
H
H
(64 − m)[3] to 63
(256 − m)[3] to 255
(512 − m)[3] to 511
H
L
L
H
H
64
256
512
L
L
L
H
H
FF
PAF
HF
PAE
EF
Number of Words in FIFO
7C4225V - 1K x 18
7C4235V - 2K x 18
7C4245V - 4K x 18
0
0
0
H
H
H
L
L
1 to n[2]
1 to n[2]
1 to n[2]
H
H
H
L
H
(n + 1) to 512
(n + 1) to 1024
(n + 1) to 2048
H
H
H
H
H
513 to (1024 − (m + 1))
1025 to (2048 − (m + 1))
2049 to (4096 − (m + 1))
H
H
L
H
H
(1024 − m)[3] to 1023
(2048 − m)[3] to 2047
(4096 − m)[3] to 4095
H
L
L
H
H
1024
2048
4096
L
L
L
H
H
Note:
2. n = Empty Offset (Default Values: CY7C4425V n = 7, CY7C4205V n = 31, CY7C4215V n = 63, CY7C4225V/7C4235V/7C4245V n = 127).
3. m = Full Offset (Default Values: CY7C4425V n = 7, CY7C4205V n = 31, CY7C4215V n = 63, CY7C4225V/7C4235V/7C4245V n = 127).
Document #: 38-06029 Rev. *C
Page 5 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Width Expansion Configuration
ANDing the Empty (Full) flags of every FIFO. This technique
will avoid ready data from the FIFO that is “staggered” by one
clock cycle due to the variations in skew between RCLK and
WCLK. Figure 2 demonstrates a 36-word width by using two
CY7C42X5V.
The CY7C42X5V can be expanded in width to provide word
widths greater than 18 in increments of 18. During width
expansion mode all control line inputs are common and all
flags are available. Empty (Full) flags should be created by
RESET (RS)
DATA IN (D) 36
RESET (RS)
18
18
READ CLOCK (RCLK)
WRITE CLOCK (WCLK)
READ ENABLE (REN)
WRITE ENABLE (WEN)
OUTPUT ENABLE(OE)
LOAD (LD)
PROGRAMMABLE(PAE)
HALF FULL FLAG (HF)
FF
7C4425V
7C4205V
7C4215V
7C4225V
7C4235V
7C4245V
7C4425V
7C4205V
7C4215V
7C4225V
7C4235V
7C4245V
FF
EF
PROGRAMMABLE(PAF)
EMPTYFLAG (EF)
EF
18
FULL FLAG (FF)
DATA OUT (Q)
36
18
FIRST LOAD (FL)
WRITE EXPANSION IN (WXI)
READ EXPANSION IN (RXI)
Figure 1. Block Diagram of Low-Voltage Synchronous FIFO Memories Used in a Width Expansion Configuration
Depth Expansion Configuration (with Programmable Flags)
The CY7C42X5V can easily be adapted to applications
requiring more than 64/256/512/1024/2048/4096 words of
buffering. Figure 2 shows Depth Expansion using three
CY7C42X5Vs. Maximum depth is limited only by signal
loading. Follow these steps:
1. The first device must be designated by grounding the First
Load (FL) control input.
2. All other devices must have FL in the HIGH state.
3. The Write Expansion Out (WXO) pin of each device must
be tied to the Write Expansion In (WXI) pin of the next
device.
4. The Read Expansion Out (RXO) pin of each device must
be tied to the Read Expansion In (RXI) pin of the next
device.
5. All Load (LD) pins are tied together.
6. The Half-Full Flag (HF) is not available in the Depth
Expansion Configuration.
7. EF, FF, PAE, and PAF are created with composite flags by
ORing together these respective flags for monitoring. The
composite PAE and PAF flags are not precise.
Document #: 38-06029 Rev. *C
Page 6 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
WXO RXO
FIRSTLOAD (FL)
7C4425V
7C4205V
7C4215V
7C4225V
7C4235V
7C4245V
VCC
FF
EF
PAE
PAF
WXI RXI
WXO RXO
7C4425V
7C4205V
7C4215V
7C4225V
7C4235V
7C4245V
DATAIN (D)
FIRSTLOAD (FL)
VCC
DATAOUT (Q)
FF
EF
PAE
PAF
WXI RXI
WRITECLOCK (WCLK)
WXO RXO
WRITE ENABLE (WEN)
READ ENABLE (REN)
7C4425V
7C4205V
7C4215V
7C4225V
7C4235V
7C4245V
RESET(RS)
LOAD (LD)
FF
FF
PAF
READ CLOCK (RCLK)
OUTPUT ENABLE (OE)
EF
EF
PAFWXI RXIPAE
PAE
42X5V–23
FIRSTLOAD (FL)
Figure 2. Block Diagram of Low-Voltage Synchronous FIFO Memory
with Programmable Flags used in Depth Expansion Configuration
Document #: 38-06029 Rev. *C
Page 7 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
DC Input Voltage .................................................... −0.5V to +5V
Maximum Ratings[4]
Output Current into Outputs (LOW)............................. 20 mA
(Above which the useful life may be impaired. For user guidelines, not tested.)
Storage Temperature ....................................−65°C to +150° C
Static Discharge Voltage ........................................... >2001V
(per MIL-STD-883, Method 3015)
Latch-up Current...................................................... >200 mA
Ambient Temperature with
Power Applied.................................................−55°C to +125° C
Operating Range
Supply Voltage to Ground Potential .................−0.5V to +5.0V
Range
DC Voltage Applied to Outputs
in High-Z State ............................................. −0.5V to VCC+0.5V
Commercial
Ambient Temperature
VCC
0° C to +70° C
3.3V ± 300 mV
Electrical Characteristics Over the Operating Range
Parameter
Description
Test Conditions
7C42X5V-15
7C42X5V-25
7C42X5V-35
Min.
Min.
Min.
Max.
2.4
Max.
VOH
Output HIGH Voltage
VCC = Min.,
IOH = −2.0 mA
2.4
VOL
Output LOW Voltage
VCC = Min.,
IOL = 8.0 mA
VIH
Input HIGH Voltage
Low = 2.0V
High = VCC +0.5V
2.0
5.0
2.0
5.0
VIL[5]
Input LOW Voltage
Low = −3.0V
High = 0.8 V
−0.5
0.8
−0.5
IIX
Input Leakage Current
VCC = Max.
−10
10
IOZL
IOZH
Output OFF,
High Z Current
OE > VIH,
VSS < VO < VCC
−10
+10
ICC[6]
Operating Current
VCC = Max.,
IOUT = 0 mA
Com’l
30
ISB[7]
Standby Current
VCC = Max.,
IOUT = 0 mA
Com’l
6
0.4
Max.
2.4
0.4
Unit
V
0.4
V
2.0
5.0
V
0.8
−0.5
0.8
V
−10
10
−10
10
µA
−10
+10
−10
+10
µA
30
30
mA
6
6
mA
Capacitance[8]
Parameter
Description
CIN
Input Capacitance
COUT
Output Capacitance
Test Conditions
TA = 25° C, f = 1 MHz,
VCC = 5.0V
Max.
Unit
5
pF
7
pF
Notes:
4. The Voltage on any input or I/O pin cannot exceed the power pin during power-up
5. The VIH and VIL specifications apply for all inputs except WXI, RXI. The WXI, RXI pin is not a TTL input. It is connected to either RXO, WXO of the previous
device or VSS.
6. Input signals switch from 0V to 3V with a rise/fall time less than 3 ns, clocks and clock enables switch at 20 MHz, while the data inputs switch at 10 MHz. Outputs
are unloaded.
7. All inputs = VCC − 0.2V, except WCLK and RCLK, which are switching at 20 MHz.
8. Tested initially and after any design or process changes that may affect these parameters
Document #: 38-06029 Rev. *C
Page 8 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
AC Test Loads and Waveforms[9, 10]
R1 = 330Ω
ALL INPUT PULSES
3.3V
OUTPUT
3.0V
R2 = 510Ω
CL
INCLUDING
JIG AND
SCOPE
Equivalent to:
THÉVENIN EQUIVALENT
Rth = 200Ω
OUTPUT
90%
10%
90%
10%
GND
≤ 3 ns
≤ 3 ns
Vth = 2.0V
Switching Characteristics Over the Operating Range
Parameter
Description
7C42X5V-15
7C42X5V-25
7C42X5V-35
Min.
Min.
Min.
Max.
66.7
Max.
Unit
28.6
MHz
20
ns
Clock Cycle Frequency
tA
Data Access Time
2
tCLK
Clock Cycle Time
15
25
35
ns
tCLKH
Clock HIGH Time
6
10
14
ns
tCLKL
Clock LOW Time.
6
10
14
ns
tDS
Data Set-up Time
4
6
7
ns
tDH
Data Hold Time
1
2
2
ns
tENS
Enable Set-up Time
4
6
7
ns
tENH
Enable Hold Time
1
2
2
ns
tRS
Reset Pulse
Width[11]
15
25
35
ns
tRSR
Reset Recovery Time
10
15
20
ns
tRSF
Reset to Flag and Output Time
tPRT
Retransmit Pulse Width
15
25
35
ns
tRTR
Retransmit Recovery Time
15
25
35
ns
tOLZ
Output Enable to Output in Low Z[12]
0
0
0
ns
tOE
Output Enable to Output Valid
3
8
3
12
3
15
ns
tOHZ
Output Enable to Output in High Z[12]
3
8
3
12
3
15
ns
tWFF
Write Clock to Full Flag
11
15
20
ns
tREF
Read Clock to Empty Flag
11
15
20
ns
11
40
Max.
tS
2
18
Flag[13]
15
2
25
35
ns
tPAFasynch
Clock to Programmable Almost-Full
(Asynchronous mode, VCC/SMODE tied to VCC)
18
22
25
ns
tPAFsynch
Clock to Programmable Almost-Full Flag
(Synchronous mode, VCC/SMODE tied to VSS)
11
15
20
ns
tPAEasynch
Clock to Programmable Almost-Empty Flag[13]
(Asynchronous mode, VCC/SMODE tied to VCC)
18
22
25
ns
tPAEsynch
Clock to Programmable Almost-Full Flag
(Synchronous mode, VCC/SMODE tied to VSS)
11
15
20
ns
tHF
Clock to Half-Full Flag
16
20
25
ns
Notes:
9. CL = 30 pF for all AC parameters except for t OHZ.
10. CL = 5 pF for t OHZ.
11. Pulse widths less than minimum values are not allowed.
12. Values guaranteed by design, not currently tested.
13. tPAFasynch, tPAEasynch, after program register write will not be valid until 5 ns + tPAF(E).
Document #: 38-06029 Rev. *C
Page 9 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Characteristics Over the Operating Range (continued)
Parameter
Description
7C42X5V-15
7C42X5V-25
7C42X5V-35
Min.
Min.
Min.
Max.
10
Max.
15
Max.
Unit
20
ns
tXO
Clock to Expansion Out
tXI
Expansion in Pulse Width
6.5
10
14
ns
tXIS
Expansion in Set-up Time
5
10
15
ns
tSKEW1
Skew Time between Read Clock and Write Clock for
Full Flag
6
10
12
ns
tSKEW2
Skew Time between Read Clock and Write Clock for
Empty Flag
6
10
12
ns
tSKEW3
Skew Time between Read Clock and Write Clock for
Programmable Almost Empty and Programmable
Almost Full Flags.
15
18
20
ns
Switching Waveforms
Write Cycle Timing
tCLK
tCLKH
tCLKL
WCLK
tDS
tDH
D0–D17
tENS
tENH
WEN
NO OPERATION
tWFF
tWFF
FF
tSKEW1[14]
RCLK
REN
Note:
14. tSKEW1 is the minimum time between a rising RCLK edge and a rising WCLK edge to guarantee that FF will go HIGH during the current clock cycle. If the time
between the rising edge of RCLK and the rising edge of WCLK is less than tSKEW1, then FF may not change state until the next WCLK edge.
Document #: 38-06029 Rev. *C
Page 10 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
Read Cycle Timing
tCLK
tCLKH
tCLKL
RCLK
tENS
tENH
REN
NO OPERATION
tREF
tREF
EF
tA
Q0–Q17
VALID DATA
tOLZ
tOHZ
tOE
OE
tSKEW2[15]
WCLK
WEN
Reset Timing[16]
RS
tRS
tRSR
REN, WEN,
LD
tRSF
EF,PAE
tRSF
FF,PAF,
HF
tRSF
Q0–Q17
[17]
OE = 1
OE = 0
Notes:
15. tSKEW2 is the minimum time between a rising WCLK edge and a rising RCLK edge to guarantee that EF will go HIGH during the current clock cycle. It the time
between the rising edge of WCLK and the rising edge of RCLK is less than tSKEW2, then EF may not change state until the next RCLK edge.
16. The clocks (RCLK, WCLK) can be free-running during reset.
17. After reset, the outputs will be LOW if OE = 0 and three-state if OE = 1.
Document #: 38-06029 Rev. *C
Page 11 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
First Data Word Latency after Reset with Simultaneous Read and Write
WCLK
tDS
D0–D17
D0 (FIRSTVALID WRITE)
D1
D2
D3
D4
tENS
tFRL[18]
WEN
tSKEW2
RCLK
tREF
EF
REN
tA [19]
tA
Q0–Q17
D0
tOLZ
D1
tOE
OE
Empty Flag Timing
WCLK
tDS
tDS
D0
D0–D17
tENS
D1
tENH
tENS
tENH
WEN
tFRL[18]
tFRL[18]
RCLK
tSKEW2
tREF
tREF
tREF
tSKEW2
EF
REN
OE
tA
Q0–Q17
D0
Notes:
18. When tSKEW2 > minimum specification, tFRL (maximum) = tCLK + tSKEW2. When tSKEW2 < minimum specification, tFRL (maximum) = either 2*tCLK + tSKEW2 or tCLK
+ tSKEW2. The Latency Timing applies only at the Empty Boundary (EF = LOW).
19. The first word is available the cycle after EF goes HIGH, always.
Document #: 38-06029 Rev. *C
Page 12 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
Full Flag Timing
NO WRITE
NO WRITE
WCLK
tSKEW1 [14]
tSKEW1 [14]
tDS
DATA WRITE
DATA WRITE
D0–D17
tWFF
tWFF
tWFF
FF
WEN
RCLK
tENS
tENH
tENH
tENS
REN
OE
LOW
tA
Q0–q17
tA
DATAREAD
DATA IN OUTPUT REGISTER
NEXT DATA READ
Half-Full Flag TimingtCLKH
tCLKL
WCLK
tENS tENH
WEN
tHF
HF
HALF FULL+1
OR MORE
HALF FULL OR LESS
HALF FULL OR LESS
tHF
RCLK
tENS
REN
Document #: 38-06029 Rev. *C
Page 13 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
Programmable Almost Empty Flag Timing
tCLKL
tCLKH
WCLK
tENS tENH
WEN
tPAE
PAE
[20]
n+1 WORDS
IN FIFO
tPAE
n WORDS IN FIFO
RCLK
tENS
REN
Programmable Almost Empty Flag Timing (applies only in SMODE (SMODE is LOW)
tCLKL
tCLKH
WCLK
tENS tENH
WEN
Note 21
PAE
tSKEW3 [22]
N + 1 WORDS
INFIFO
tPAEsynch
Note 23
tPAEsynch
RCLK
tENS
tENS tENH
REN
Notes:
20. PAE offset − n. Number of data words into FIFO already = n.
21. PAE offset − n.
22. tSKEW3 is the minimum time between a rising WCLK and a rising RCLK edge for PAE to change state during that clock cycle. If the time between the edge of
WCLK and the rising RCLK is less than tSKEW3, then PAE may not change state until the next RCLK.
23. If a read is performed on this rising edge of the read clock, there will be Empty + (n−1) words in the FIFO when PAE goes LOW.
Document #: 38-06029 Rev. *C
Page 14 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
Programmable Almost Full Flag Timing
tCLKL
tCLKH
Note 24
WCLK
tENS tENH
WEN
tPAF
FULL − M WORDS
IN FIFO [26]
[25]
PAF
tPAF
FULL − (M + 1) WORDS
IN FIFO [27]
RCLK
tENS
REN
Programmable Almost Full Flag Timing (applies only in SMODE (SMODE in LOW))
tCLKL
tCLKH
Note 28
WCLK
tENS tENH
WEN
Note 29
PAF
tPAF
FULL − M WORDS
IN FIFO [26]
FULL – (M + 1) WORDS
IN FIFO
tSKEW3[30]
tPAFsynch
RCLK
tENS
tENS tENH
REN
Notes:
24. PAF offset = m. Number of data words written into FIFO already = 64 − m + 1 for the CY7C4425V, 256 − m + 1 for the CY7C4205V, 512 − m + 1 for the CY7C4215V.
1024 − m + 1 for the CY7C4225V, 2048 − m + 1 for the CY7C4235V, and 4096 − m + 1 for the CY7C4245V.
25. PAF is offset = m.
26. 64 − m words in CY7C4425V, 256 – m words inCY7C4205V, 512 − m words in CY7C4215V. 1024 – m words in CY7C4225V, 2048 − m words in CY7C4235V,
and 4096 – m words in CY7C4245V.
27. 64 − m + 1 words in CY7C4425V, 256 − m + 1 words in CY7C4205V, 512 − m +1 words in CY7C4215V, 1024 − m + 1 CY7C4225V, 2048 − m + 1 in CY74235V,
and 4096 − m + 1 words in CY7C4245V.
28. If a write is performed on this rising edge of the write clock, there will be Full – (m–1) words of the FIFO when PAF goes LOW.
29. PAF offset = m.
30. tSKEW3 is the minimum time between a rising RCLK and a rising WCLK edge for PAF to change state during that clock cycle. If the time between the edge of
RCLK and the rising edge of WCLK is less than tSKEW3, then PAF may not change state until the next WCLK rising edge.
Document #: 38-06029 Rev. *C
Page 15 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
Write Programmable Registers
tCLK
tCLKL
tCLKH
WCLK
tENS
tENH
LD
tENS
WEN
tDS
tDH
PAE OFFSET
D0–D17
PAE OFFSET
PAF OFFSET
D0–D11
Read Programmable Registers
tCLK
tCLKL
tCLKH
RCLK
tENS
tENH
LD
tENS
REN
tA
Q0–Q17
UNKNOWN
PAE OFFSET
PAF OFFSET
PAE OFFSET
Write Expansion Out Timing
tCLKH
WCLK
Note 31
tXO
WXO
tENS
tXO
WEN
Note:
31. Write to Last Physical Location.
Document #: 38-06029 Rev. *C
Page 16 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Switching Waveforms (continued)
Read Expansion Out Timing
tCLKH
RCLK
Note 32
tXO
RXO
tXO
tENS
REN
Write Expansion In Timing
tXI
WXI
WCLK
tXIS
Read Expansion In Timing
tXI
RXI
tXIS
RCLK
Retransmit Timing[33, 34, 35]
FL/RT
tPRT
tRTR
REN/WEN
EF/FF
and/all
async flags
HF/PAE/PAF
Notes:
32. Read from Last Physical Location.
33. Clocks are free running in this case.
34. The flags may change state during Retransmit as a result of the offset of the read and write pointers, but flags will be valid at tRTR.
35. For the synchronous PAE and PAF flags (SMODE), an appropriate clock cycle is necessary after tRTR to update these flags.
Document #: 38-06029 Rev. *C
Page 17 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Ordering Information
64 x 18 Low-Voltage Synchronous FIFO
Speed
(ns)
Ordering Code
Package
Name
Package
Type
Operating
Range
15
CY7C4425V-15ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
25
CY7C4425V-25ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
35
CY7C4425V-35ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
256 x 18 Low-Voltage Synchronous FIFO
Speed
(ns)
15
Ordering Code
Package
Name
Package
Type
Operating
Range
CY7C4205V-15ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
CY7C4205V-15AC
A65
64-Lead 14x14 Thin Quad Flatpack
CY7C4205V-15ASXC
A64
64-Lead Pb-Free 10x10 Thin Quad Flatpack
25
CY7C4205V-25ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
35
CY7C4205V-35ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
512 x 18 Low-Voltage Synchronous FIFO
Speed
(ns)
15
Ordering Code
Package
Name
Package
Type
CY7C4215V-15ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Operating
Range
Commercial
CY7C4215V-15ASXC
A64
64-Lead Pb-Free 10x10 Thin Quad Flatpack
25
CY7C4215V-25ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
35
CY7C4215V-35ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
1K x 18 Low-Voltage Synchronous FIFO
Speed
(ns)
15
Ordering Code
Package
Name
Package
Type
Operating
Range
CY7C4225V-15ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
CY7C4225V-15ASXC
A64
64-Lead Pb-Free 10x10 Thin Quad Flatpack
CY7C4225V-15AC
A65
64-Lead 14x14 Thin Quad Flatpack
25
CY7C4225V-25ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
35
CY7C4225V-35ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
2K x 18 Low-Voltage Synchronous FIFO
Speed
(ns)
15
Ordering Code
Package
Name
Package
Type
CY7C4235V-15ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Operating
Range
Commercial
CY7C4235V-15ASXC
A64
64-Lead Pb-Free 10x10 Thin Quad Flatpack
25
CY7C4235V-25ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
35
CY7C4235V-35ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Commercial
4K x 18 Low-Voltage Synchronous FIFO
Speed
(ns)
15
25
35
Ordering Code
Package
Name
Package
Type
CY7C4245V-15ASC
A64
64-Lead 10x10 Thin Quad Flatpack
CY7C4245V-15ASXC
A64
64-Lead Pb-Free 10x10 Thin Quad Flatpack
CY7C4245V-25ASC
A64
64-Lead 10x10 Thin Quad Flatpack
CY7C4245V-25ASXC
A64
64-Lead Pb-Free 10x10 Thin Quad Flatpack
CY7C4245V-35ASC
A64
64-Lead 10x10 Thin Quad Flatpack
Document #: 38-06029 Rev. *C
Operating
Range
Commercial
Commercial
Commercial
Page 18 of 20
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Package Diagrams
64-Pin Thin Plastic Quad Flat Pack (10 x 10 x 1.4 mm) A64
64-Pin Pb-Free Thin Plastic Quad Flat Pack (10 x 10 x 1.4 mm) A64
51-85051-*A
64-Lead Thin Plastic Quad Flat Pack (14 x 14 x 1.4 mm) A65
51-85046-*B
All product and company names mentioned in this document are the trademarks of their respective holders.
Document #: 38-06029 Rev. *C
Page 19 of 20
© Cypress Semiconductor Corporation, 2005. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be
used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress does not authorize its
products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges.
CY7C4225V/4205V/4215V
CY7C4425V/4235V/4245V
Document History Page
Document Title: CY7C4425V/4205V/4215V CY7C4225V/4235V/4245V 64/256/512/1K/2K/4K x 18 Low-Voltage Synchronous FIFOs
Document Number: 38-06029
REV.
ECN NO.
Issue Date
Orig. of
Change
Description of Change
**
109961
12/17/01
SZV
Change from Spec number: 38-00609 to 38-06029
*A
122281
12/26/02
RBI
Power up requirements added to Maximum Ratings Information
*B
127856
08/22/03
FSG
Fixed read cycle timing diagram
Corrected switching waveform diagram typos
Page 12: WEN changed to REN (typo)
Page 13: WCLK changed to RCLK (typo)
*C
393636
See ECN
YIM
Added Pb-Free Logo
Added Pb-Free parts to ordering information:
CY7C4205V-15ASXC, CY7C4215V-15ASXC, CY7C4225V-15ASXC,
CY7C4235V-15ASXC, CY7C4245V-15ASXC, CY7C4245V-25ASXC
Document #: 38-06029 Rev. *C
Page 20 of 20