ETC CXK77B1840GB-4

SONY
CXK77B1840GB
4A/4/45A/45
4Mb Late Write HSTL High Speed Synchronous SRAM (256K x 18 Organization)
Description
The CXK77B1840 is a high speed BiCMOS synchronous static RAM with common I/O pins, organized as 262,144-words by
18-bits. This synchronous SRAM integrates input registers, high speed RAM, output registers/latches, and a one-deep write
buffer onto a single monolithic IC. Four different read protocols - Register-Register (R-R), Register-Latch (R-L), Register-Flow
Thru (R-FT), and Dual Clock (DC), and an enhanced write protocol - Late (Delayed) Write (LW), are supported, providing a
flexible, high-performance user interface.
All input signals except G (Output Enable) and ZZ (Sleep Mode) are registered on the positive edge of K clock.
Read cycles can be controlled in one of four ways - with registered outputs in Register-Register mode, with latched outputs in
Register-Latch mode, with flow-through outputs in Register-Flow Thru mode, or with registered outputs using a dedicated output control clock (C clock) in Dual Clock mode. The read protocol is user-selectable through external mode pins M1 and M2.
Write cycles follow a Late Write protocol, where data is provided to the SRAM one clock cycle after the address and control
signals, eliminating one dead cycle from Read-to-Write transitions. In this scheme, when a write cycle is initiated, the address
and data stored in the SRAM’s write buffer during the previous write cycle are directed to the SRAM’s memory core, while,
simultaneously, the address and data from the current write cycle are stored in the SRAM’s write buffer. In both Register-Latch
and Register-Flow Thru modes, when SW (Global Write Enable) is driven active, the subsequent positive edge of K clock tristates the SRAM’s output drivers immediately, allowing consecutive Read-Write-Read operations. The write cycle is internally
self-timed, which eliminates complex off-chip write pulse generation and provides increased flexibility for incoming signals.
The output drivers are series terminated, and the output impedance is programmable through an external impedance matching
resistor RQ. By connecting RQ between ZQ and V SS, the output impedance of all 18 DQ pins can be precisely controlled.
Sleep (power down) mode control is provided through the asynchronous ZZ input. 250 MHz operation is obtained from a single
3.3V power supply. JTAG boundary scan interface is provided using a subset of IEEE standard 1149.1 protocol.
Features
R-R Mode
R-L, R-FT Modes
• Fast Cycle/Access Time
tKHKH / tKHQV
tKHKH / tKHQV
CXK77B1840 -4A
4.0ns / 2.3ns
4.8ns / 4.8ns
-4
4.0ns / 2.3ns
5.3ns / 5.3ns
-45A
4.0ns / 2.3ns
5.3ns / 5.3ns
-45
5.0ns / 2.5ns
6.5ns / 6.5ns
Note: Contact Sony Memory Marketing for availability of DC mode functionality.
• 4 synchronous modes of operation, selectable by mode pins:
Register-Register; Register-Latch; Register-Flow Thru; Dual Clock
• Single +3.3V power supply: 3.3V ± 5%
**DC Mode**
tKHKH / tKHQV
4.0ns / 5.2ns
4.0ns / 5.2ns
4.5ns / 6.0ns
4.5ns / 6.5ns
• Dedicated output supply voltage: VDDQ (1.5V typical)
• Inputs and outputs are HSTL / extended HSTL compatible.
• Differential clock input (K/K, C/C).
• All inputs (except asynchronous G and ZZ) and outputs are registered on a single clock edge.
• Byte Write capability.
• Late Write scheme to eliminate one dead cycle from Read-to-Write transitions.
• Self-timed write cycles.
• Sleep (power down) mode.
• JTAG boundary scan (subset of IEEE standard 1149.1).
• 119 pin (7x17) Plastic Ball Grid Array (PBGA) package.
256Kx18, Sync LW, HSTL, rev 4.6
1 / 27
August 20, 1998
SONY®
CXK77B1840GB
Pin Configuration (Top View)
1
2
3
4
5
6
7
A
VDDQ
SA6
SA7
NC
SA3
SA2
VDDQ
B
NC
NC
SA8
NC
SA4
NC
NC
C
NC
SA12
SA5
VDD
SA0
SA13
NC
D
DQ0b
NC
VSS
ZQ
VSS
DQ8a
NC
E
NC
DQ1b
VSS
SS
VSS
NC
DQ7a
F
VDDQ
NC
VSS
G
VSS
DQ6a
VDDQ
G
NC
DQ2b
SBWb
C
VSS
NC
DQ5a
H
DQ3b
NC
VSS
C
VSS
DQ4a
NC
J
VDDQ
VDD
VREF
VDD
VREF
VDD
VDDQ
K
NC
DQ4b
VSS
K
VSS
NC
DQ3a
L
DQ5b
NC
VSS
K
SBWa
DQ2a
NC
M
VDDQ
DQ6b
VSS
SW
VSS
NC
VDDQ
N
DQ7b
NC
VSS
SA14
VSS
DQ1a
NC
P
NC
DQ8b
VSS
SA11
VSS
NC
DQ0a
R
NC
SA10
M1
VDD
M2
SA15
NC
T
NC
SA17
SA9
NC
SA1
SA16
ZZ
U
VDDQ
TMS
TDI
TCK
TDO
NC
VDDQ
Pin Description
Symbol
Description
Symbol
Description
Symbol
Description
SA
Address Input (0-17)
G
Async. Output Enable
V DDQ
Output Power Supply
DQ
Data I/O (0-8), Bytes a,b
ZZ
Async. Sleep Mode
VSS
Ground
K,K
Differential Input Clocks
TCK
JTAG Clock (LVTTL)
VREF
Input Reference Voltage
C,C
Differential Output Control
Clocks
TMS
JTAG Mode Select (LVTTL)
ZQ
Output Impedance Control
Resistor Input
SW
Write Enable, Global
TDI
JTAG Data In (LVTTL)
M1,M2
Mode Select
SBWx
Write Enable, Bytes a,b
TDO
JTAG Data Out (LVTTL)
NC
No Connect
SS
Synchronous Select
VDD
+3.3V Power Supply
256Kx18, Sync LW, HSTL, rev 4.6
2 / 27
August 20, 1998
SONY®
CXK77B1840GB
BLOCK DIAGRAM
18 Input
Reg.
SA
0-17
2:1
Mux
Dout
^
Kint
Add.
Write
Store
Reg.
256K x 18
Din
Output
2:1
Mux
latch
DQ
Write
pulse
Reg.
Read
Comp.
Reg.
SS
^
Kint
SW
Reg.
^
Kint
Self
Time
Write
Logic
4
SBW
a-d
Reg.
^
Kint
Input
Clock
Kint
2
K/K
C/C
Output
Clock
2
M1
M2
Mode
Control
G
256Kx18, Sync LW, HSTL, rev 4.6
3 / 27
August 20, 1998
SONY®
CXK77B1840GB
•Truth Tables
Register - Register Mode
ZZ
SS
(tn)
SW
(tn)
SBWx
(tn)
G
DQ0-17
(tn)
DQ0-17
(tn+1)
VDD
Current
H
X
X
X
X
Sleep Mode. Power Down
Hi - Z
Hi - Z
ISB
L
H
X
X
X
Deselect
X
Hi - Z
IDD
L
L
H
X
H
Read
Hi - Z
Hi - Z
IDD
L
L
H
X
L
Read
X
Q(tn)
IDD
L
L
L
L
X
Write All Bytes (Bits 0-17)
X
D(tn)
IDD
L
L
L
X
X
Write Bytes With SBWx=L
X
D(tn)
IDD
L
L
L
H
X
Abort Write
X
Hi - Z
IDD
DQ0-17
(tn)
DQ0-17
(tn+1)
VDD
Current
Mode
Register - Latch and Register - Flow Thru Mode
ZZ
SS
(tn)
SW
(tn)
SBWx
(tn)
G
H
X
X
X
X
Sleep Mode. Power Down
Hi - Z
Hi - Z
ISB
L
H
X
X
X
Deselect
Hi - Z
X
IDD
L
L
H
X
H
Read
Hi - Z
Hi - Z
IDD
L
L
H
X
L
Read
Q(tn)
X
IDD
L
L
L
L
X
Write All Bytes (Bits 0-17)
Hi - Z
D(tn)
IDD
L
L
L
X
X
Write Bytes With SBWx=L
Hi - Z
D(tn)
IDD
L
L
L
H
X
Abort Write
Hi - Z
X
IDD
DQ0-17
(tn)
DQ0-17
(tn+1)
VDD
Current
Mode
Dual Clock Mode
ZZ
SS
(tn)
SW
(tn)
SBWx
(tn)
G
H
X
X
X
X
Sleep Mode. Power Down
Hi - Z
Hi - Z
ISB
L
H
X
X
X
Deselect
Hi - Z
X
IDD
L
L
H
X
H
Read
Hi - Z
Hi - Z
IDD
L
L
H
X
L
Read
Q(tn)
X
IDD
L
L
L
L
X
Write All Bytes (Bits 0-17)
Hi - Z
D(tn)
IDD
L
L
L
X
X
Write Bytes With SBWx=L
Hi - Z
D(tn)
IDD
L
L
L
H
X
Abort Write
Hi - Z
Hi - Z
IDD
256Kx18, Sync LW, HSTL, rev 4.6
Mode
4 / 27
August 20, 1998
SONY®
CXK77B1840GB
•Mode Select
This device supports four different JEDEC standard read protocols via mode pins M1 and M2.
The mode pins must be set during power-up and cannot change during SRAM operation.
Mode Select Truth Table.
M1
M2
Register-Register
L
H
Register-Flow Thru
L
L
Register-Latch
H
L
Dual Clock
H
H
•Power-Up Sequence
Power supplies must power up in the following sequence: VSS, VDD, VDDQ, VREF, and Inputs.
VDDQ must never exceed VDD.
•Absolute Maximum Ratings(1)
Item
Symbol
Rating
Unit
Supply Voltage
VDD
-0.5 to +4.6
V
Output Supply Voltage
VDDQ
-0.5 to +4.6
V
VIN
-0.5 to VDD+0.5 (4.6V max.)
V
VOUT
-0.5 to VDDQ+0.5 (4.6V max.)
V
Operating Temperature
TA
0 to 70
°C
Junction Temperature
TJ
0 to 110
°C
Storage Temperature
Tstg
-55 to 150
°C
Input Voltage
Output Voltage
(1) Stresses greater than those listed under “Absolute Maximum Ratings” may cause permanent damage
to the device. This is a stress rating only, and functional operation of the device at these or any other
conditions other than those indicated in the operational sections of this specification is not implied.
Exposure to absolute maximum rating conditions for extended periods may affect reliability.
256Kx18, Sync LW, HSTL, rev 4.6
5 / 27
August 20, 1998
SONY®
CXK77B1840GB
•DC Recommended Operating Conditions.
Item
(VSS = 0V, TA = 0 to 70oC)
Symbol
Min
Typ
Max
Unit
VDD
3.13
3.3
3.47
V
Output Supply Voltage
VDDQ
1.4
---
1.6(3)
V
Input Reference Voltage
VREF
0.5
---
1.0
V
Input High Voltage
VIH
VREF + 0.2
---
VDDQ + 0.3(1)
V
Input Low Voltage
VIL
-0.3(2)
---
VREF - 0.2
V
Input High Voltage - Test Mode
VTIH
2.0
---
VDDQ+0.3
V
Input Low Voltage - Test Mode
VTIL
-0.3
---
0.8
V
Clock Input Signal Voltage
VIN
-0.3
---
VDDQ+0.3
V
Clock Input Differential Voltage
VDIF
0.4
---
VDDQ+0.6
V
Clock Input Common Mode Voltage
VCM
0.5
0.75
1.0
V
Clock Input Cross Point Voltage
VX
0.5
0.75
1.0
V
Output Impedance Control Resistor
RQ
175
250
350
Ω
Supply Voltage
(1)
(2)
(3)
VIH (Max) AC = V DD+1.5 V for pulse width less than 2.0 ns.
VIL (Min) AC = -1.5 V for pulse width less than 2.0 ns.
Extended VDDQ support up to 2.0V is available - please contact marketing.
•I/O Capacitance
Item
(TA = 25oC, f = 1 MHz)
Symbol
Test conditions
Min
Max
Unit
CIN
VIN = 0V
---
6
pF
Clock Input Capacitance
CCLK
VIN = 0V
---
6
pF
Output Capacitance
COUT
VOUT = 0V
---
7
pF
Input Capacitance
Note: These parameters are sampled and are not 100% tested.
•Programmable Impedance Output Drivers
This device has programmable impedance output drivers. The output impedance is controlled by an external resistor, RQ, connected between the SRAM’s ZQ pin and VSS, and is equal to one-fifth the value
of this resistor. For output impedance matching within a ±7.5% tolerance, RQ must be in the range of
175Ω to 350Ω. For maximum output drive, the ZQ pin can be connected directly to VSS. For minimum
output drive, the ZQ pin can be left open or connected to VDDQ. The output impedance is updated whenever the drivers are in a Hi-Z state. At power up, 8192 clock cycles followed by a write or deselect operation are required to ensure that the output impedance has reached its desired value. After power up,
periodic updates of the output impedance, via a write or deselect operation, are also required.
256Kx18, Sync LW, HSTL, rev 4.6
6 / 27
August 20, 1998
SONY®
CXK77B1840GB
(VDD = 3.3V ± 5%, VSS = 0V, TA = 0 to 70oC)
•DC Electrical Characteristics
Item
Symbol
Test Conditions
Min
Typ
Max
Unit
Input Leakage Current
ILI
VIN = VSS to VDD
-1
---
1
uA
Output Leakage Current
ILO
VOUT = VSS to VDD
G = VIH
-10
---
10
uA
Power Supply
Operating Current
IDD4
Cycle = 6.0ns
Duty = 100%
IOUT = 0 mA
---
610
---
mA
Power Supply
Operating Current
IDD4
Cycle = 5.0ns
Duty = 100%
IOUT = 0 mA
---
650
---
mA
Power Supply
Operating Current
IDD4
Cycle = 4.5ns
Duty = 100%
IOUT = 0 mA
---
670
---
mA
Power Supply
Operating Current
IDD4
Cycle = 4.0ns
Duty = 100%
IOUT = 0 mA
---
695
---
mA
Power Supply
Standby Current
ISB
ΖΖ ≥ VIH
---
60
---
mA
Output High Voltage
VOH
IOH = -6.0 mA
RQ=250Ω
VDDQ-0.4
---
---
V
Output Low Voltage
VOL
IOL = 6.0 mA
RQ = 250Ω
---
---
0.4
V
(RQ/5)*
0.925
RQ/5
(RQ/5)*
1.075
Ω
Output Driver
Impedance
ROUT1,2,3
VOH = VDDQ/2
VOL = VDDQ/2
1. RQ needs to be in the range of 175Ω to 350Ω for proper control of the value of ROUT.
1.1 ROUT ≤ 38Ω (1.075 * 175Ω/5) when RQ ≤ 175Ω
1.2 ROUT ≥ 64Ω (0.925 * 350Ω/5) when RQ ≥ 350Ω
2. For maximum output drive, ZQ pin can be tied directly to VSS. The output impedance is as described in note 1.1.
3. For minimum output drive, ZQ pin can be no connect or tied to VDDQ. The output impedance is as described in note 1.2.
4. Typical IDD values measured at VDD = 3.3V and TA = 25oC, with a 75% read / 25% write operation distribution.
256Kx18, Sync LW, HSTL, rev 4.6
7 / 27
August 20, 1998
SONY®
CXK77B1840GB
•AC Electrical Characteristics (Register-Register Mode)
-4A
Item
-4
-45A
-45
Symbol
Unit
Min
Max
Min
Max
Min
Max
Min
Max
Cycle Time
tKHKH
4.0
---
4.0
---
4.0
---
5.0
---
ns
Clock High Pulse Width
tKHKL
1.5
---
1.5
---
1.5
---
1.5
---
ns
Clock Low Pulse Width
tKLKH
1.5
---
1.5
---
1.5
---
1.5
---
ns
Address Setup Time
tAVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Address Hold Time
tKHAX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Write Enables Setup Time
tWVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Write Enables Hold Time
tKHWX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Synchronous Select Setup Time
tSVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Synchronous Select Hold Time
tKHSX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Data Input Setup Time
tDVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Data Input Hold Time
tKHDX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Clock High to Output Valid
tKHQV
---
2.3
---
2.3
---
2.3
---
2.5
ns
Clock High to Output Hold
tKHQX*2
0.7
---
0.7
---
0.7
---
0.7
---
ns
Clock High to Output Low-Z
tKHQX1*2
0.7
---
0.7
---
0.7
---
0.7
---
ns
Clock High to Output High-Z
tKHQZ*2
---
2.3
---
2.3
---
2.3
---
2.5
ns
Output Enable Low to Output Valid
tGLQV
---
2.3
---
2.3
---
2.3
---
2.5
ns
Output Enable Low to Output Low-Z
tGLQX*2
0.5
---
0.5
---
0.5
---
0.5
---
ns
Output Enable High to Output High-Z
tGHQZ*2
---
2.3
---
2.3
---
2.3
---
2.3
ns
Sleep Mode Enable Time
tZZE*2
---
20.0
---
20.0
---
20.0
---
20.0
ns
Sleep Mode Recovery Time
tZZR*2
20.0
---
20.0
---
20.0
---
20.0
ns
1. All parameters are specified over the range TA = 0 to 70oC.
2. These parameters are sampled and are not 100% tested.
256Kx18, Sync LW, HSTL, rev 4.6
8 / 27
August 20, 1998
SONY®
CXK77B1840GB
•AC Electrical Characteristics (Register-Latch & Register-Flow Thru Modes)
-4A
Item
-4
-45A
-45
Symbol
Unit
Min
Max
Min
Max
Min
Max
Min
Max
Cycle Time
tKHKH
4.8
---
5.3
---
5.3
---
6.5
---
ns
Clock High Pulse Width
tKHKL
1.5
---
1.5
---
1.5
---
1.5
---
ns
Clock Low Pulse Width
tKLKH
1.5
---
1.5
---
1.5
---
1.5
---
ns
Address Setup Time
tAVKH
0.4*3
---
0.5
---
0.5
---
0.5
---
ns
Address Hold Time
tKHAX
0.8*3
---
1.0
---
1.0
---
1.0
---
ns
Write Enables Setup Time
tWVKH
0.4*3
---
0.5
---
0.5
---
0.5
---
ns
Write Enables Hold Time
tKHWX
0.8*3
---
1.0
---
1.0
---
1.0
---
ns
Synchronous Select Setup Time
tSVKH
0.4*3
---
0.5
---
0.5
---
0.5
---
ns
Synchronous Select Hold Time
tKHSX
0.8*3
---
1.0
---
1.0
---
1.0
---
ns
Data Input Setup Time
tDVKH
0.4*3
---
0.5
---
0.5
---
0.5
---
ns
Data Input Hold Time
tKHDX
0.8*3
---
1.0
---
1.0
---
1.0
---
ns
Clock High to Output Valid
tKHQV
---
4.8
---
5.3
---
5.3
---
6.5
ns
Clock High to Output Hold
(R-FT mode only)
tKHQX*2
2.0
---
2.0
---
2.0
---
2.0
---
ns
Clock High to Output Low-Z
(R-FT mode only)
tKHQX1*2
2.5
---
2.5
---
2.5
---
3.0
---
ns
Clock Low to Output Valid
(R-L mode only)
tKLQV
---
2.2
---
2.3
---
2.5
---
2.5
ns
Clock Low to Output Hold
(R-L mode only)
tKLQX*2
0.7
---
0.7
---
0.7
---
0.7
---
ns
Clock Low to Output Low-Z
(R-L mode only)
tKLQX1*2
0.7
---
0.7
---
0.7
---
0.7
---
ns
Clock High to Output High-Z
tKHQZ*2
---
2.2
---
2.3
---
2.5
---
2.5
ns
Output Enable Low to Output Valid
tGLQV
---
2.2
---
2.3
---
2.5
---
2.5
ns
Output Enable Low to Output Low-Z
tGLQX*2
0.5
---
0.5
---
0.5
---
0.5
---
ns
Output Enable High to Output High-Z
tGHQZ*2
---
2.2
---
2.3
---
2.3
---
2.3
ns
Sleep Mode Enable Time
tZZE*2
---
20.0
---
20.0
---
20.0
---
20.0
ns
Sleep Mode Recovery Time
tZZR*2
20.0
---
20.0
---
20.0
---
20.0
---
ns
1. All parameters are specified over the range TA = 0 to 70oC.
2. These parameters are sampled and are not 100% tested.
3. For -4A, these parameters are measured from valid VIH/VIL levels to the clock mid-point.
4. R-FT mode operation is verified functionally, but associated timing parameters are guaranteed by design only and are not 100% tested.
256Kx18, Sync LW, HSTL, rev 4.6
9 / 27
August 20, 1998
SONY®
CXK77B1840GB
•AC Electrical Characteristics (Dual Clock Mode)
-4A
Item
-4
-45A
-45
Symbol
Unit
Min
Max
Min
Max
Min
Max
Min
Max
K Clock Cycle Time
tKHKH
4.0
---
4.0
---
4.5
---
4.5
---
ns
K Clock High Pulse Width
tKHKL
1.5
---
1.5
---
1.5
---
1.5
---
ns
K Clock Low Pulse Width
tKLKH
1.5
---
1.5
---
1.5
---
1.5
---
ns
C Clock Cycle Time
tCHCH
4.0
---
4.0
---
4.5
---
4.5
---
ns
C Clock High Pulse Width
tCHCL
1.5
---
1.5
---
1.5
---
1.5
---
ns
C Clock Low Pulse Width
tCLCH
1.5
---
1.5
---
1.5
---
1.5
---
ns
K to C Clock Delay
tKHCH
1.5
---
1.5
---
1.5
---
1.5
---
ns
C to K Clock Delay
tCHKH
0.8
---
0.8
---
0.8
---
0.8
---
ns
Address Setup Time
tAVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Address Hold Time
tKHAX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Write Enables Setup Time
tWVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Write Enables Hold Time
tKHWX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Synchronous Select Setup Time
tSVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Synchronous Select Hold Time
tKHSX
1.0
---
1.0
---
1.0
---
1.0
---
ns
Data Input Setup Time
tDVKH
0.5
---
0.5
---
0.5
---
0.5
---
ns
Data Input Hold Time
tKHDX
0.8
---
0.8
---
1.0
---
1.0
---
ns
K Clock High to Output Valid
tKHQV
---
5.2
---
5.2
---
6.0
---
6.5
ns
C Clock High to Output Valid
tCHQV
---
2.3
---
2.3
---
2.5
---
2.5
ns
C Clock High to Output Hold
tCHQX*2
0.7
---
0.7
---
0.7
---
0.7
---
ns
C Clock High to Output Low-Z
tCHQX1*2
0.7
---
0.7
---
0.7
---
0.7
---
ns
C Clock High to Output High-Z
tCHQZ*2
---
2.3
---
2.3
---
2.5
---
2.5
ns
Output Enable Low to Output Valid
tGLQV
---
2.1
---
2.1
---
2.5
---
2.5
ns
Output Enable Low to Output Low-Z
tGLQX*2
0.5
---
0.5
---
0.5
---
0.5
---
ns
Output Enable High to Output High-Z
tGHQZ*2
---
2.0
---
2.0
---
2.3
---
2.3
ns
Sleep Mode Enable Time
tZZE*2
---
20.0
---
20.0
---
20.0
---
20.0
ns
Sleep Mode Recovery Time
tZZR*2
20.0
---
20.0
---
20.0
---
20.0
---
ns
1. All parameters are specified over the range TA = 0 to 70oC.
2. These parameters are sampled and are not 100% tested.
3. Currently, DC mode operation is not verified functionally, and no timing parameters are guaranteed. Contact Sony Memory
Marketing for availability.
256Kx18, Sync LW, HSTL, rev 4.6
10 / 27
August 20, 1998
SONY®
CXK77B1840GB
•AC Test Conditions (VDDQ = 1.5V)
(VDD = 3.3V ± 5%, TA = 0 to 70°C)
Item
Conditions
Input Reference Voltage
VREF = 0.75V
Input High Level
VIH = 1.25V
Input Low Level
VIL = 0.25V
Input Rise & Fall Time
Clock
Notes
1V/ns
Input Reference Level
K/K cross;
C/C cross
Input High Voltage
1.25V
Input Low Voltage
0.25V
Input Rise & Fall Time
1V/ns
Output Supply Voltage
VDDQ = 1.5V
Output Reference Level
0.75V
Output Load Conditions
Fig.1
RQ = 250Ω
Fig. 1: AC Test Output Load (VDDQ = 1.5V)
0.75 V
50 Ω
16.7 Ω
50 Ω
5 pF
DQ
16.7 Ω
0.75 V
50 Ω
16.7 Ω
50 Ω
5 pF
256Kx18, Sync LW, HSTL, rev 4.6
11 / 27
August 20, 1998
SONY®
CXK77B1840GB
•AC Test Conditions (VDDQ = 1.9V) .... for extended HSTL (for R-L mode only)
(VDD = 3.3V ± 5%, TA = 0 to 70°C)
(VDDQ = 1.9V ± 0.1V, TA = 0 to 70°C)
Item
Conditions
Input Reference Voltage
VREF = 0.75V
Input High Level (Address / Control)
VIHCA = 1.25V
Input Low Level (Address / Control)
VILCA = 0.25V
Input High Level (Data)
VIHD = 1.25V
Input Low Level (Data)
VILD = 0.25V
Input Rise & Fall Time
1V/ns
Clock
Input Reference Level
Notes
K/K cross
PECL Input High Voltage
1.45V
PECL Input Low Voltage
0.75V
Input Rise & Fall Time
1V/ns
Output Supply Voltage
VDDQ = 1.9V
Output Reference Level
0.95V
Output Load Conditions
Fig.2
RQ = 250Ω
Fig. 2: AC Test Output Load (VDDQ = 1.9V)
0.95 V
50 Ω
16.7 Ω
50 Ω
5 pF
DQ
16.7 Ω
0.95 V
50 Ω
16.7 Ω
50 Ω
5 pF
256Kx18, Sync LW, HSTL, rev 4.6
12 / 27
August 20, 1998
SONY®
CXK77B1840GB
Register - Register Mode
Timing Diagram of Read and Deselect Operations
K
K
tKHKH
SA
tKHKL
n
tKLKH
n+2
n+3
tAVKH tKHAX
SW
tWVKH tKHWX
SS
tSVKH tKHSX
tGLQV
tGLQX
G
tKHQV
tGHQZ
tKHQZ
tKHQX
DQ
Qn-2
tKHQX1
Qn
Qn-1
Timing Diagram of Write Operations
K
K
SA
n
n+1
n+2
n+3
Dn
Dn+1
Dn+2
SS
SW/SBWx
G
tDVKH tKHDX
DQ
Dn-1
256Kx18, Sync LW, HSTL, rev 4.6
13 / 27
August 20, 1998
SONY®
CXK77B1840GB
Register - Register Mode
Timing Diagram I of Read-Write-Read Operations (SS Controlled)
K
K
SA
n
n+2
n+3
n+4
n+5
SS
SW/SBWx
tKHQZ
G = VIL
DQ
Qn-1
Read n
Qn
Deselect
Dn+2
Write n+2
Qn+3
Read n+3
Read n+4
Timing Diagram II of Read-Write-Read Operations (G Controlled)
K
K
SA
n
n+2
n+3
n+4
n+5
SS = VIL
SW/SBWx
G
tGHQZ
DQ
Qn-1
Read n
256Kx18, Sync LW, HSTL, rev 4.6
Qn
Dummy
Read
Dn+2
Write n+2
14 / 27
Read n+3
Qn+3
Read n+4
August 20, 1998
SONY®
CXK77B1840GB
Register - Latch Mode
Timing Diagram of Read and Deselect Operations
K
K
tKHKH
SA
tKHKL
n
tKLKH
n+1
n+3
tAVKH tKHAX
SW
tWVKH tKHWX
SS
tSVKH tKHSX
tGLQV
tGLQX
tKHQV
G
tKLQV
tKLQV
tKLQX
tGHQZ
tKHQZ
tKLQX
DQ
Qn-1
Qn
Qn+1
Timing Diagram of Write Operations
K
K
SA
n
n+1
n+2
n+3
Dn
Dn+1
Dn+2
SS
SW/SBWx
G
tDVKH tKHDX
DQ
Dn-1
256Kx18, Sync LW, HSTL, rev 4.6
15 / 27
August 20, 1998
SONY®
CXK77B1840GB
Register - Latch Mode
Timing Diagram of Read-Write-Read Operations
K
K
SA
n
n+1
n+2
n+4
n+5
SS
SW/SBWx
tKHQZ
G = VIL
DQ
Qn
Read n
256Kx18, Sync LW, HSTL, rev 4.6
tKHQZ
Dn+1
Write n+1
Read n+2
16 / 27
Qn+2
Deselect
Qn+4
Read n+4
August 20, 1998
SONY®
CXK77B1840GB
Register - Flow Thru Mode
Timing Diagram of Read and Deselect Operations
K
K
tKHKH
SA
n
tKHKL
tKLKH
n+1
n+3
tAVKH tKHAX
SW
tWVKH tKHWX
SS
tSVKH tKHSX
tGLQV
tGLQX
G
tKHQV
tGHQZ
tKHQZ
tKHQX
DQ
Qn-1
tKHQX
Qn
Qn+1
Timing Diagram of Write Operations
K
K
SA
n
n+1
n+2
n+3
Dn
Dn+1
Dn+2
SS
SW/SBWx
G
tDVKH tKHDX
DQ
Dn-1
256Kx18, Sync LW, HSTL, rev 4.6
17 / 27
August 20, 1998
SONY®
CXK77B1840GB
Register - Flow Thru Mode
Timing Diagram of Read-Write-Read Operations
K
K
SA
n
n+1
n+2
n+4
n+5
SS
SW/SBWx
tKHQZ
G = VIL
DQ
Qn
Read n
256Kx18, Sync LW, HSTL, rev 4.6
tKHQZ
Dn+1
Write n+1
Read n+2
18 / 27
Qn+2
Deselect
Qn+4
Read n+4
August 20, 1998
SONY®
CXK77B1840GB
Dual Clock Mode
Timing Diagram of Read and Deselect Operations
K
K
tKHKH
SA
tKHKL
n
tKLKH
n+1
n+3
tAVKH tKHAX
SW
tWVKH tKHWX
SS
tSVKH tKHSX
G
tGLQV
tKHQV
tCHQV
tGLQX
tCHQV
tCHQX1
tGHQZ
tCHQZ
tCHQX
DQ
Qn-1
tCHKH
Qn
Qn+1
tKHCH
C
C
tCHCH
256Kx18, Sync LW, HSTL, rev 4.6
tCHCL
tCLCH
19 / 27
August 20, 1998
SONY®
CXK77B1840GB
Dual Clock Mode
Timing Diagram of Write Operations
K
K
SA
n
n+1
n+2
n+3
Dn
Dn+1
Dn+2
SS
SW/SBWx
G
tDVKH tKHDX
DQ
Dn-1
Timing Diagram I of Read-Write-Read Operations (SS Controlled)
K
K
SA
n
n+2
n+3
n+4
n+5
SS
SW/SBWx
tCHQZ
G = VIL
DQ
Qn
Dn+2
Qn+3
Qn+4
C
C
Read n
256Kx18, Sync LW, HSTL, rev 4.6
Deselect
Write n+2
20 / 27
Read n+3
Read n+4
August 20, 1998
SONY®
CXK77B1840GB
Dual Clock Mode
Timing Diagram II of Read-Write-Read Operations (G Controlled)
K
K
SA
n
n+2
n+3
n+4
n+5
SS = VIL
SW/SBWx
G
***Note***
(1)
tGHQZ
DQ
Qn
Dn+2
Qn+3
Qn+4
C
C
Read n
Dummy
Read
Write n+2
Read n+3
Read n+4
Note 1: In order to prevent glitches on the data bus during write-read operations, when G is
driven active (low) following the rising edge of K, the data bus will remain tri-stated
until valid data from the most recent read operation is available. Specifically, the data
bus will remain tri-stated for the maximum of the following three times:
1.TKHQV
2.TKHCH + TCHQV
3.(K high to G low) + TGLQV
256Kx18, Sync LW, HSTL, rev 4.6
21 / 27
August 20, 1998
SONY®
CXK77B1840GB
Test Mode Description
Functional Description
The CXK77B1840 provides a JTAG boundary scan interface using a limited set of IEEE std. 1149.1
functions. The test mode is intended to provide a mechanism for testing the interconnect between master
(processor, controller, etc.), SRAMs, other components and the printed circuit board.
In conformance with a subset of IEEE std. 1149.1, the CXK77B1840 contains a TAP controller, Instruction register, Boundary scan register and Bypass register.
JTAG Inputs/Outputs are LVTTL compatible only.
Test Access Port (TAP)
4 pins as defined in the Pin Description table are used to perform JTAG functions. The TDI input pin is
used to scan test data serially into one of three registers (Instruction register, Boundary Scan register and
Bypass register). TDO is the output pin used to scan test data serially out. The TDI pin sends the data
into LSB of the selected register and the MSB of the selected register feeds the data to TDO. The TMS
input pin controls the state transition of 16 state TAP controller as specified in IEEE std. 1149.1. Inputs
on TDI and TMS are registered on the rising edge of TCK clock. The output data on TDO is presented
on the falling edge of TCK. TDO driver is in active state only when TAP controller is in Shift-IR state
or in Shift-DR state.
TCK, TMS, TDI must be tied low when JTAG is not used.
TAP Controller
16 state controller is implemented as specified in IEEE std. 1149.1.
The controller enters reset state in one of two ways:
1. Power up.
2. Apply a logic 1 on TMS input pin on 5 consecutive TCK rising edges.
Instruction Register (3 bits)
The JTAG Instruction register consists of a shift register stage and parallel output latch. The register is
3 bits wide and is encoded as follow:
Octal
MSB..........LSB
Instruction
0
0
0
0
Bypass
1
0
0
1
IDCODE. Read device ID
2
0
1
0
Sample-Z. Sample Inputs and tri-state DQs
3
0
1
1
Bypass
4
1
0
0
Sample. Sample Inputs.
5
1
0
1
Private. Manufacturer use only.
6
1
1
0
Bypass
7
1
1
1
Bypass
256Kx18, Sync LW, HSTL, rev 4.6
22 / 27
August 20, 1998
SONY®
CXK77B1840GB
Bypass Register (1 bit)
The Bypass Register is one bit wide and is connected electrically between TDI and TDO and provides
the minimum length serial path between TDI and TDO.
ID Registers (32 bits)
The ID Register is 32 bits wide and is encoded as follows:
ID[0}
1
Sony ID
ID[11:1]
0000 1110 001
Part Number
ID[27:12]
0000 0000 0001 1000
Revision Number
ID[31:28]
xxxx
Boundary Scan Register (51 bits)
The Boundary Scan Registers are 51 bits wide and are listed as follows:
DQ
18
SA
18
SW, SBWx
3
SS, G
2
K, K, C, C
4
ZZ
1
M1, M2
2
ZQ
1
Place Holder
2
K/K, C/C inputs are sampled through one differential stage and internally inverted to generate internal
K/K, C/C signals for scan registers. Place Holder are required for some NC pins to maintain 51 bits Scan
Register for different types of the same family SRAM and for density upgrades. All Place Holder Registers are connected to VSS internally regardless of pin connection externally.
256Kx18, Sync LW, HSTL, rev 4.6
23 / 27
August 20, 1998
SONY®
CXK77B1840GB
Scan Order (Order by exit sequence)
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
256Kx18, Sync LW, HSTL, rev 4.6
3B
3A
3C
2C
2A
1D
2E
2G
1H
3G
4D
4E
4G
4H
4M
2K
1L
2M
1N
2P
3T
2R
4N
2T
3R
SA
VSS
SA
SA
SA
SA
DQb
DQb
DQb
DQb
SBWb
ZQ
SS
C
C
SW
DQb
DQb
DQb
DQb
DQb
SA
SA
SA
SA
M1
SA
VSS
SA
SA
SA
SA
DQa
DQa
DQa
DQa
DQa
G
K
K
SBWa
DQa
DQa
DQa
DQa
ZZ
SA
SA
SA
SA
M2
24 / 27
5B
5A
5C
6C
6A
6D
7E
6F
7G
6H
4F
4K
4L
5L
7K
6L
6N
7P
7T
5T
6R
4P
6T
5R
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
August 20, 1998
SONY®
CXK77B1840GB
Ordering Information.
Part Number
Speed
Register - Register
Register - Latch/
Register - Flow Thru
**Dual Clock**
CXK77B1840GB-4A
4.0ns Cycle / 2.3ns Access
4.8ns Cycle / 4.8ns Access
4.0ns Cycle / 5.2ns Access
CXK77B1840GB-4
4.0ns Cycle / 2.3ns Access
5.3ns Cycle / 5.3ns Access
4.0ns Cycle / 5.2ns Access
CXK77B1840GB-45A
4.0ns Cycle / 2.3ns Access
5.3ns Cycle / 5.3ns Access
4.5ns Cycle / 6.0ns Access
CXK77B1840GB-45
5.0ns Cycle / 2.5ns Access
6.5ns Cycle / 6.5ns Access
4.5ns Cycle / 6.5ns Access
Note: Contact Sony Memory Marketing for availability of Dual Clock mode functionality.
Sony reserves the right to change products and specifications without prior notice. This information does not convey any license
by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.
256Kx18, Sync LW, HSTL, rev 4.6
25 / 27
August 20, 1998
SONY®
CXK77B1840GB
Revision History
Rev. #
Rev. date
Changes / Modifications to Data-Sheet
rev 4.0
8/22/97
Initial version, based on TS-2 evaluation
rev 4.2
11/21/97
Modified AC Electrical Characteristics:
R-R Mode:
-4.5+ TKHKH
-4.5 TGHQZ
-4.5 TGHQZ
R-L, R-FT Modes:
-4
TKHKH
-4.5+ TKHQV
TGHQZ
-4.5 TGHQZ
-5
TKHKH
DC Mode:
-4
TKHQV
TKHDX
TGLQV
TGHQZ
-4.5+ TKHQV
TGHQZ
-4.5 TGHQZ
Renamed “-4” bin to “-40” bin in all modes.
Renamed “-4.5+” bin to “-45H” bin in all modes.
Renamed “-4.5” bin to “-45” bin in all modes.
Renamed “-5” bin to “-50” bin in all modes.
5.0ns to 4.5ns
2.5ns to 2.3ns
2.5ns to 2.3ns
5.5ns to 5.0ns
6.5ns to 5.5ns
2.5ns to 2.3ns
2.5ns to 2.3ns
5.5ns to 6.0ns
5.5ns to 5.3ns
1.0ns to 0.8ns
2.3ns to 2.1ns
2.3ns to 2.0ns
6.2ns to 6.0ns
2.5ns to 2.3ns
2.5ns to 2.3ns
Modified DC Recommended Operating Conditions (page-6)
VREF + 0.1 to VREF + 0.2
VIH min
VIL
max
VREF - 0.1 to VREF - 0.2
VDIF min
0.2V to 0.4V
Added extended HSTL AC Test Conditions (page-12)
Provided IDD & ISB typical values (page-7)
rev 4.3
01/15/98
Modified AC Electrical Characteristics:
Added “-40A” bin to all modes.
Deleted “-40” bin from all modes.
Deleted “-50” bin from all modes.
Renamed “-45H” bin to “-45A” bin in all modes.
Modified extended HSTL AC Test Conditions (page-12)
256Kx18, Sync LW, HSTL, rev 4.6
26 / 27
August 20, 1998
SONY®
Rev. #
rev 4.4
CXK77B1840GB
Rev. date
04/14/98
Changes / Modifications to Data-Sheet
Modified AC Electrical Characteristics
Deleted “-45” bin from all modes.
Renamed “-40A” bin to “-4A” bin in all modes.
R-R Mode:
-4A TKHKH
4.5ns to 4.0ns
-45A TKHKH
4.5ns to 4.0ns
TKHQV
2.5ns to 2.3ns
TKHQZ
2.5ns to 2.3ns
TGLQV
2.5ns to 2.3ns
R-L, R-FT Modes:
Added “R-FT timing parameters guaranteed by design only” note
for all bins.
Removed TKHQZ1 from all bins.
-4A TGHQZ
2.3ns to 2.2ns
DC Mode:
Added “DC operation not functionally verified” note for all bins.
Removed TKHQX and TKHQX1 from all bins.
-4A TKHQV
5.3ns to 5.2ns
Modified DC Recommended Operating Conditions (page-6)
RQ
min
200Ω to 175Ω
Modified DC Electrical Characteristics (page-7)
ROUT min
(RQ/5)*0.9Ω to (RQ/5)*0.925Ω
(RQ/5)*1.1Ω to (RQ/5)*1.075Ω
ROUT max
Updated all timing diagrams (page-13 through page-21).
Added “Contact Sony Memory Marketing for DC model availability”
note (page-1 and page-25).
Removed “Preliminary” from the data sheet
rev 4.5
rev 4.6
08/12/98
08/20/98
256Kx18, Sync LW, HSTL, rev 4.6
Modified AC Electrical Characteristics
R-L, R-FT Modes:
-4A TKHKH
TKHQV
-45A TKHKH
TKHQV
5.0ns to 4.8ns
5.0ns to 4.8ns
5.5ns to 5.3ns
5.5ns to 5.3ns
Modified AC Electrical Characteristics
Added “-4” bin to all modes.
Added “-45” bin to all modes.
27 / 27
August 20, 1998