6.42
IDT70824S/L
High-Speed 4K x 16 Sequential Access Random Access Memory Military and Commercial Temperature Ranges
3
Pin Descriptions: Random Access Port
(1)
Pin Descriptions: Sequential Access Port
(1)
NOTE:
1. "I/O" is bidirectional Input and Output. "I" is Input and "O" is Output.
SYMBOL NAME I/O DESCRIPTION
A
0
-A
11
Address Lines I Address inputs to access the 4096-word (16-Bit) memory array.
I/O
0
-I/O
15
Inputs/Outputs I Random access data inputs/outputs for 16-Bit wide data.
CE
Chip Enable I When CE is LOW, the random access port is enabled. When CE is HIGH, the random access port is disabled
into power-down mode and the I/O outputs are in the High-impedance state. All data is retained during CE =
V
IH
, unless it is altered by the sequential port CE and CMD may not be LOW at the same time.
CMD
Control Register Enable I When CMD is LOW, address lines A
0
-A
2
, R/W, and inputs and outputs I/O
0
-I/O
12
, are used to access the
control register, the flag register and the start and end of buffer registers. CMD and CE may not be LOW at the
same time.
R/W Read/Write Enable I If CE is LOW and CMD is HIGH, data is written into the array when R/W is LOW and read out of the array when
R/W is HIGH. If CE is HIGH and CMD is LOW, R/W is used to access the buffer command registers. CE and
CMD may not be LOW at the same time.
OE
Output Enable I When OE is LOW and R/W is HIGH, I/O
0
-I/O
15
outputs are enabled. When OE is HIGH, the I/O outputs are in
the High-impedance state.
LB, UB
Lower Byte, Upper Byte
Enables
I When LB is LOW, I/O
0
-I/O
7
are accessible for read and write operations. When LB is HIGH, I/O
0
-I/O
7
are tri-
stated and blocked during read and write operations. UB controls access for I/O
8
-I/O
15
in the same manner and
is asynchronous
from LB.
V
CC
Power Supply I Seven +5 power supply pins. All V
CC
pins must be connected to the same +5V V
CC
supply.
GND Ground I Ten ground pins. All ground pins must be connected to the same ground supply.
3099 tbl 01
SYMBOL NAME I/O DESCRIPTION
SI/O0-15 Inputs/Outputs I/O Sequential data inputs/outputs for 16-bit wide data.
SCLK Clock I SI/O
0
-SI/O
15
,SCE, SR/W, and SLD are registered on the LOW-to-HIGH transition of SCLK. Also, the sequential
access port address pointer increments by 1 on each LOW-TO-HIGH transition of SCLK when CNTEN is LOW.
SCE
Chip Enable I When SCE is LOW, the sequential access port is enabled on the LOW-to-HIGH transition of SCLK. When SCE
is HIGH, the sequential access port is disabled into powered-down mode on the LOW-to-HIGH transition of
SCLK, and the SI/O outputs are in the High-impedance state. All data is retained, unless altered by the random
access port.
CNTEN
Counter Enable I When CNTEN is LOW, the address pointer increments on the LOW-to-HIGH transition of SCLK. This function is
independent of CE.
SR/W Read/Write Enable I When SR/W and SCE are LOW, a write cycle is initiated on the LOW-to-HIGH transition of SCLK. When SR/W is
HIGH, and SCE and SOE are LOW, a read cycle is initiated on the LOW-to-HIGH transition of SCLK. Termination
of a write cycle is done on the LOW-to-HIGH transition of SCLK if SR/W or SCE is HIGH.
SLD
Address Pointer Load Control I When SLD is sampled LOW, there is an internal delay of one cycle before the address pointer changes. When
SLD is LOW, data on the inputs SI/O
0
-SI/O
11
is loaded into a data-in register on the LOW-to-HIGH transition of
SCLK. On the Cycle following SLD, the address pointer charges to the address location contained in the data-
in register. SSTRT
1
and SSTRT
2
may not be LOW while SLD is LOW or during the cycle following SLD.
SSTRT
1
,
SSTRT
2
Load Start of Address
Register
I When SSTRT
1
or SSTRT
2
is LOW, the start of address register #1 or #2 is loaded into the address pointer on
the LOW-to-HIGH transition of SCLK. The start addresses are stored in internal registers. SSTRT
1
and SSTRT
2
may not be LOW while SLD is LOW or during the cycle following SLD.
EOB
1
,
EOB
2
End of Buffer Flag O
EOB
1
or EOB
2
is output low when the address pointer is incremented to match the address stored in the end
of buffer registers. The flags can be cleared by either asserting RST LOW or by writing zero into Bit 0 and/or
Bit 1 of the control register at address 101. EOB
1
and EOB
2
are dependent on separate internal registers, and
therefore separate match addresses.
SOE
Output Enable I
SOE controls the data outputs and is independent of SCLK. When SOE is LOW, output buffers and the
sequentially addressed data is output. When SOE is HIGH, the SI/O output bus is in the High-impedance state.
SOE is asynchronous to SCLK.
RST
Reset I When RST is LOW, all internal registers are set to their default state, the address pointer is set to zero and the
EOB
1
and EOB
2
flags are set HIGH. RST is asynchronous to SCLK.
3099 tbl 02