TOSHIBA TC5565APL

TOSHIBA MOS MEMORY PRODUCTS
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
DESCRIPTION
The TC5565APL/AFL is 65,536 bit static random access memory organized as 8,192 words by 8 bits using CMOS technology, and
operates from a single 5V supply. Advanced circuit techniques provide both high speed and low power features with a maximum
operating current of 5mA/MHz and maximum access time of 100ns/120ns/150ns.
When CE2 is a logical low or \CEl is a logical high, the device is placed in low power standby mode in which standby current is 2uA
typically. The TC5565APL/AFL has three control inputs. Two chip enable (\CE1, CE2) allow for device selection and data retention
control, and an output enable input (\OE) provides fast memory access. Thus the TC5565APL/AFL is suitable for use in various
microprocessor application systems where high speed, low power, and battery back up are required.
The TC5565APL also features pin compatibility with the 64K bit EPROM (TMM2764D).
RAM and EPROM are then interchangeable in the same socket, resulting in flexibility in the definition of the quantity of RAM versus
EPROM in microprocessor application systems. The TC5565APL is offered in a dual-in-line 28 pin standard plastic package. The
TC5565AFL is offered in 28 pin mini Flat Package.
•
FEATURES
•
Low Power Dissipation
27.5mW/MHz(Max.) operating
• Standby Current: 100uA(Max.) Ta=70°C
• Access Time
TC5565APL/AFL-10 : 100ns(Max.)
TC5565APL/AFL-12 : 120ns(Max.)
TC5565APL/AFL-15 : 150ns(Max.)
• 5V Single Power Supply
• Power Down Features: CE2, \CE1
• Fully Static Operation
Data Retention Supply Voltage: 2.0-5.5V
PIN CONNECTION (TOP VIEW)
AO-A12
R/W
\OE
\CE1, CE2
I/O1 – I/O8
VDD
GND
N.C.
Address Inputs
Read/Write Control Input
Output Enable Input
Chip Enable Inputs
Data Input/Output
Power (+5V)
Ground
No Connection
•
•
Directly TTL Compatible
and Outputs
Pin Compatible with 2764 type EPROM
TC5565APL Family (Package Type)
: All Inputs
Package Type
Device Name
600 mil DIP
TC5565APL
300 mil DIP
*TC5563APL
(Slim Package)
Flat Package
TC5565AFL
(SOP)
* See TC5563APL Technical Data.
BLOCK DIAGRAM
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
OPERATION MODE
Read
Write
Output Deselect
Standby
\CE1
CE2
\OE
R/W
1/01-T/08
POWER
L
L
L
H
H
H
H
*
L
L
*
H
*
*
H
L
H
*
*
DOUT
DIN
High-Z
High-Z
High-Z
IDDO
IDDO
IDDO
IDDS
IDDS
MAXIMUM RATINGS
SYMBOL
VDD
ITEM
Power Supply Voltage
RATING
-0.3~7.0
VIN
Input Voltage
*-0.3~7.0
VI/O
Input and Output Voltage
PD
Tsolder
Tstg
UNIT
-0-5-VDD+0.5
v
v
v
Power Dissipation
1.0/0.6**
W
Soldering Temperature
260-10
-55~150
0-70
°C sec
°C
°C
Storage Temperature
Topr
Operating Temperature
* -3.0V at pulse width 50ns MAX. **Flat package
D.C RECOMMENDED OPERATING CONDITIONS
SYMBOL
PARAMETER
VDD
Power Supply Voltage
VIH
Input High Voltage
4.5
MIN.
Typ.
5.0
MAX.
5.5
UNIT
v
2.2
-
VDD+0.3
v
VIL
Input Low Voltage
-0.3
-
0.8
V
VDH
Data-Retention Supply Voltage
2.0
-
5.5
V
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
D.C and OPERATING CHARACTERISTICS (Ta=0~70°C, VDD = 5V±10%)
SYMBOL
IIL
IOH
IOL
ILO
PARAMETER
Input Leakage
Current
Output High Current
Output Low Current
Output Leakage Current
TEST CONDITION
MIN. TYP. MAX. UNIT
VIN=O~VDD
VOH-2-4V
VOL-0.4V
VIH or CE2-VOL or
\CE1 = VIH or CE2=VOL 0r R/W = VIL
or \OE=VIH
VOUT=0~VDD
tcycle =1.0us
TC5565APL-10 tcycle
TC556SAFL-10 =100ns
VDD =5.5V
\CE1=VIL
CE2=VIH
Other input=
VIH/VIL
IDDO1
-
-1.0
4.0
-
-
-
±1.0
uA
mA
mA
±1.0
uA
10
mA
-
-
45
mA
-
-
40
mA
-
-
35
mA
-
-
5
mA
tcycle =100ns
-
-
40
mA
tcycle =120ns
-
-
35
mA
tcycle =150ns
-
-
30
mA
-
2
1
3
100
50
mA
uA
uA
TC5565APL-12 tcycle
TC5565AFL-12 =120ns
TC5565A?L-15 tcycle
TC5565AFL-15 =150ns
Operating Current
-
tcycle=1.0us
TC5565APL-10
VDD=5.5V
\CEl=O.2V
CE2=VDD –0.2V
Other lnput=
VDD - 0.2V/0.2V
IDD02
TC5565AFL-10
TC5565AFL-12
TC5565AFL-12
TC5565APL-15
TC5565AFL-15
IDDS1
*IDDS2
Note *
\Cel = VIH or CE2 = VIL
Standby Current
\CE1 = VDD – 0.2V or
CE2 = 0.2V
VDD = 5.5V
VDD = 3.0V
In standby mode with \CE1>= VDD – 0.2V, these specification limits are guaranteed under the condition of
CE2 >= VDD – 0.2V or CE2 <= 0.2V.
CAPACITANCE (Ta=25°C)
SYMBOL
PARAMETER
Input
Capacitance
CIN
Output Capacitance
COUT
* This parameter periodically sampled is not 100% tested.
TEST CONDITION
VIN = GND
VOUT = GND
MIN.
-
TYP.
-
MAX.
10
10
UNIT
pF
pF
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
A.C. CHARACTERISTICS (Ta=0~70°C, VDD = 5V±10%)
Read Cycle
SYMBOL PARAMETER
tRC
tACC
tCOL
tC02
tOE
Read Cycle Time
Address Access Time
\CE1 Access Time
CE2 Access Time
Output Enable to Output Valid
Chip Enable (\CE1, CE2) to
Output in Low-Z
Output Enable to Output in Low-Z
Chip Enable (CE1, CE2) to
Output in High-Z
Output Enable to Output in High-Z
Output Data Hold Time
tCOE
tOEE
tOD
tODO
tOH
TC5565APL-10
TC5565AFL-10
MIN. MAX.
100
100
100
100
50
TC5565APL-12 TC5565APL-15
TC5565AFL-12 TC5565AFL-15
MIN.
MAX. MIN.
MAX
120
150
120
150
120
150
120
150
60
70
10
-
10
-
15
-
5
-
5
-
5
-
-
35
-
40
-
50
20
35
-
20
40
-
20
50
-
Write Cycle
SYMBOL
PARAMETER
tWC
tWP
tCW
Write Cycle Time
Write Pulse Width
Chip Selection to End of Write
tAS
Address Set up Time
rWR
Write Recovery Time
tODW
R/W to Output High-Z
rOEW
R/W to Output Low-Z
tDS
Data Set up Time
tDH
Data Hold Time
A.C. TEST CONDITION
Output Load
Input Pulse Level
Timing Measurement
Reference Level
tr, tf
VIN
VOUT
TC5565APL-10
TC5565AFL-10
MIN. MAX.
100
60
80
0
0
35
5
40
0
-
: 100pF + 1 TTL Gate
: 0.6V, 2.4V
: 0.8V, 2.2V
: 0.8V, 2.2V
: 5ns
TC5565APL-12 TC5565APL- 5
TC5565AFL-12 TC5565AFL- 5
MIN.
MAX. MIN. MAX..
120
150
70
90
85
100
0
0
0
0
0
40
50
5
10
50
60
0
0
-
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
TIMING WAVEFORMS
READ CYCLE (1)
WRITE CYCLE 1 (4) (R/W Controlled Write)
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
WRITE CYCLE 2 (4) (\CE1 Controlled Write)
WRITE CYCLE 3 (4) (CE2 Controlled Write)
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
Note 1. R/W is High for Read Cycle.
2.
Assuming that \CE1 Low transition of CE2 High transition occurs coincident with or after R/W Low transition, Outputs
remain in a high impedance state.
3.
Assuming that \CEl High transition or CE2 Low transition occurs coincident with or prior to R/W High transition, Outputs
remain in a high impedance state.
4.
Assuming that \OE is High for Write Cycle, Outputs are in high impedance state during this period.
DATA RETENTION CHARACTERISTICS (Ta=0~70°C)
SYMBOL
VDH
IDDS2
PARAMETER
Data Retention Supply Voltage
Stand by Supply Current
tCDR
Chip Deselection to Data Retention Mode
tR
Recovery Mode
Note (1) : Read cycle Time.
\CE1 Controlled Data Retention Mode (2)
CE2 Controlled Data Retention Mode (4)
VDD=3.0V
VDD=5.5V
MIN.
2.0
0
tRC(1)
TYP.
-
MAX.
5.5
50
100
-
UNIT
V
uA
us
us
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
Note 2 :
In \CE1 controlled data retention mode, minimum standby current mode is achieved under the condition Of CE2<= O.2V Or
CE2>= VDD -0.2V.
3:
If the VIH of \CE1 is 2.2V in operation, IDDS1 current flows during the period that the VDD voltage is going down from 4.5V to
2.4V,
4;
In CE2 controlled data retention mode, minimum standby current mode is achieved under the condition of CE2 <= 0.2V.
DEVICE INFORMATION
The TC5565APL/AFL is an synchronous RAM using address activated circuit technology, thus the internal operation is synchronous.
Then once row address change occur, the precharge operation is executed by internal pulse generated from row address transient.
Therefore the peak current flows only after row address change, as shown in the following figure.
This peak current may induce the noise on VDD /GND lines. Thus the use of about 0.1uF decoupling capacitor for every device is
recommended to eliminate such noise.
TC5565APL-10, TC5565APL-12, TC5565APL-15
TC5565AFL-10, TC5565AFL-12, TC5565AFL-15
DIP 28 PIN OUTLINE DRAWING (6D28A-P)
Unit in mm
Note) Lead pitch is 2.54 and tolerance is +\-0.25 against theoretical center of each
lead that is obtained on the basis of No.1 and No.28 leads.
MFP 28 PIN OUTLINE DRAWING (F28GC-P)
Unit in mm
Note) Lead pitch is 1.27 and tolerance is +\-0.12 against theoretical center of each
lead that is obtained on the basis of No.1 and N0.28 leads