IDT IDT7210L35GB 16 x 16 parallel cmos multiplier-accumulator Datasheet

IDT7210L
16 x 16 PARALLEL CMOS
MULTIPLIER-ACCUMULATOR
Integrated Device Technology, Inc.
FEATURES:
DESCRIPTION:
• 16 x 16 parallel multiplier-accumulator with selectable
accumulation and subtraction
• High-speed: 20ns multiply-accumulate time
• IDT7210 features selectable accumulation, subtraction,
rounding and preloading with 35-bit result
• IDT7210 is pin and function compatible with the TRW
TDC1010J, TMC2210, Cypress CY7C510, and AMD
AM29510
• Performs subtraction and double precision addition and
multiplication
• Produced using advanced CMOS high-performance
technology
• TTL-compatible
• Available in topbraze DIP, PLCC, Flatpack and Pin Grid
Array
• Military product compliant to MIL-STD-883, Class B
• Standard Military Drawing #5962-88733 is listed on this
function
• Speeds available:
Commercial: L20/25/35/45/55/65
Military:
L25/30/40/55/65/75
The IDT7210 is a high-speed, low-power 16 x 16-bit parallel
multiplier-accumulator that is ideally suited for real-time digital
signal processing applications. Fabricated using CMOS
silicon gate technology, this device offers a very low-power
alternative to existing bipolar and NMOS counterparts, with
only 1/7 to 1/10 the power dissipation and exceptional speed
(25ns maximum) performance.
A pin and functional replacement for TRW’s TDC1010J the
IDT7210 operates from a single 5 volt supply and is compatible
with standard TTL logic levels. The architecture of the IDT7210
is fairly straightforward, featuring individual input and output
registers with clocked D-type flip-flop, a preload capability
which enables input data to be preloaded into the output
registers, individual three-state output ports for the Extended
Product (XTP) and Most Significant Product (MSP) and a
Least Significant Product output (LSP) which is multiplexed
with the Y input.
The XIN and YIN data input registers may be specified
through the use of the Two’s Complement input (TC) as either
a two’s complement or an unsigned magnitude, yielding a fullprecision 32-bit result that may be accumulated to a full 35-bit
result. The three output registers – Extended Product (XTP),
Most Most Significant Product (MSP) and Least Significant
Product (LSP) – are controlled by the respective TSX, TSM
and TSL input lines. The LSP output can be routed through YIN
ports.
FUNCTIONAL BLOCK DIAGRAM
ACC, SUB,
RND, TC
XIN
(X15-X0)
CLKX
16
CLKY
YIN
(Y15-Y0/P15-P0)
4
16
CONTROL
REGISTER
XREGISTER
YREGISTER
MULTIPLIER ARRAY
32
+/–
+
TSL
ACCUMULATOR
PREL
35
35
XTP REGISTER
CLKP
MSP REGISTER
LSP REGISTER
16
3
TSM
TSX
3
XTPOUT
(P34-P32)
PREL
16
MSPOUT
(P31-P16)
IDT7210
MILITARY AND COMMERCIAL TEMPERATURE RANGES
1995 Integrated Device Technology, Inc.
11.2
2577 drw 01
AUGUST 1995
DSC-2018/7
1
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
DESCRIPTION (Continued)
The Accumulate input (ACC) enables the device to perform
either a multiply or a multiply-accumulate function. In the
multiply-accumulate mode, output data can be added to or
subtracted from previous results. When the Subtraction (SUB)
input is active simultaneously with an active ACC, a subtraction
can be performed. The double precision accumulated result is
rounded down to either a single precision or single precision
plus 3-bit extended result. In the multiply mode, the Extended
Product output (XTP) is sign extended in the two’s complement
mode or set to zero in the unsigned mode. The Round (RND)
control rounds up the Most Significant Product (MSP) and the
3-bit Extended Product (XTP) outputs. When Preload input
(PREL) is active, all the output buffers are forced into a highimpedance state (see Preload truth table) and external data
can be loaded into the output register by using the TSX, TSL
and TSM signals as input controls.
X7
X8
X9
X10
X11
X12
X13
X14
X15
TSL
RND
SUB
ACC
CLKX
CLKY
VCC
TC
TSX
PREL
TSM
CLKP
P34
P33
P32
P31
P30
P29
P28
P27
P26
P25
P24
60 59 58 5756 55 54 53 5251 50 4948 47 46 45 44
P1, Y1 61
P0, Y0 62
X0 63
X1 64
X2 65
X3 66
X4 67
X5 68
X6 1
X7 2
X8 3
X9 4
X10 5
X11 6
X12 7
X13 8
X14 9
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
J68-1,
L68-1
J68-1
10 11 1213 14 1516 17 18 19 20 21 22 23 24 25 26
P17
P18
P19
P20
P21
P22
P23
P24
P25
P26
P27
P28
P29
P30
P31
P32
P33
2577 drw 03
X15
TSL
RND
SUB
ACC
CLKX
CLKY
VCC
VCC
VCC
VCC
TC
TSX
PREL
TSM
CLKP
P34
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
C64-2 49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
PLCC
TOP VIEW
P1, Y1
P2, Y2
P3, Y3
P4, Y4
P5, Y5
P6, Y6
P7, Y7
GND
P8, Y8
P9, Y9
P10, Y10
P11, Y11
P12, Y12
P13, Y13
P14, Y14
P15, Y15
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
2577 drw 02
DIP
TOP VIEW
64636261 605958575655 545352 515049
P0, Y0
X0
X1
X2
X3
X4
X5
X6
X7
X8
X9
X10
X11
X12
X13
X14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
F64-1
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
P16
P17
P18
P19
P20
P21
P22
P23
P24
P25
P26
P27
P28
P29
P30
P31
17181920 212223242526 272829 303132
2577 drw 04
X15
TSL
RND
SUB
ACC
CLKX
CLKY
VCC
TC
TSX
PREL
TSM
CLKP
P34
P33
P32
X6
X5
X4
X3
X2
X1
X0
P 0,
P 1,
P 2,
P 3,
P 4,
P 5,
P 6,
P 7,
GND
P 8,
P 9,
P10,
P11,
P12,
P13,
P14,
P15,
P16
P17
P18
P19
P20
P21
P22
P23
P2, Y2
P3, Y3
P4, Y4
P5, Y5
P6, Y6
P7, Y7
GND
GND
P8, Y8
P9, Y9
P10, Y10
P11, Y11
P12, Y12
P13, Y13
P14, Y14
P15, Y15
P16
PIN CONFIGURATIONS
FLATPACK
TOP VIEW
11.2
2
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
11
MILITARY AND COMMERCIAL TEMPERATURE RANGES
NC
X15
RND ACC CLKY
TSL
SUB CLKX VCC
10
X13
X14
09
X11
08
TC PREL CLKP P33
P32
NC
X12
P30
P31
X9
X10
P28
P29
07
X7
X8
P26
P27
06
X5
X6
P24
P25
05
X3
X4
P22
P23
04
X1
X2
P20
P21
03
Y0,
P0
X0
P18
P19
02
NC
Y1,
P1
Y3,
P3
Y5,
P5
Y7,
P7
Y8,
P8
Y10,
P10
Y12,
P12
Y14,
P14
P16
P17
Y2,
P2
Y4,
P4
Y6,
P6
GND
Y9,
P9
Y11,
P11
Y13,
P13
Y15,
P15
NC
B
C
D
E
F
G
H
J
K
01
Pin 1
Designator
A
TSX TSM
P34
G68-2
PGA
TOP VIEW
L
2577 drw 05
PIN DESCRIPTIONS
Pin Name
X0 - 15
I/O
I
Y0 - 15/ P0 - 15
I/O
P16 - 31
I/O
P32 - 34
I/O
Description
Data Inputs
Multiplexed I/O port. Y0 - 15 are data inputs and can be used to preload LSP register on PREL = 1. P0 - 15
are LSP register outputs - enabled by TSL.
MSP register outputs - enabled by TSM. MSP register can be preloaded when PREL = 1.
CLKX
I
XTP register outputs - enabled by TSX. XTP register can be preloaded through these inputs when
PREL = 1.
Input data X0 - 15 loaded in X input register on CLKX rising edge.
CLKY
I
Input data Y0 - 15 loaded in Y input register on CLKY rising edge.
CLKP
I
Output data loaded into output register on rising edge of CLKP.
TSX
I
TSX = 0 enables XTP outputs, TSX = 1 tristates P32 - 34 lines.
TSM
I
TSM = 0 enables MSP outputs, TSM = 1 tristates P16 - 31 lines.
TSL
I
TSL = 0 enables LSP outputs, TSL = 1 tristates P0 - 15 lines.
PREL
I
When PREL= 1 data is input on P0 - 15 lines. When PREL = 0, inputs on these lines are ignored.
ACC
I
SUB
I
TC
I
RND
I
This input is loaded into the control register on the rising edge of (CLKX + CLKY).
When ACC = 1 and SUB = 0 an accumulate operation is performed. When ACC = 1 and SUB = 1, a
subtract operation is performed. When ACC = 0, the SUB input is a don't care and the device acts as a
simple multipler with no accumulation
This input is loaded into the control register on the rising edge of (CLKX + CLKY).
This input is active only when ACC = 1. When SUB = 1 the contents of the output register are subtracted
from the result and stored back in the output register. When SUB = 0 the contents of the output register
are added to the result and stored back in the output register
This input is loaded into the control register on the rising edge of (CLKX + CLKY).
When TC = 1, the X and Y input are assumed to be in two's complement form. When TC = 0, X and Y
inputs are assumed to be in unsigned magnitude form
This input is loaded into the control register on the rising edge of (CLKX + CLKY).
RND is inactive when low. RND = 1, adds a "1" to the most significant bit of the LSP, to round MSP and
XTP data
2577 tbl 01
11.2
3
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
NOTES ON TWO'S COMPLEMENT FORMATS
PRELOAD TRUTH TABLE
PREL
TSX
TSM
TSL
XTP
MSP
LSP
0
0
0
0
Q
Q
Q
0
0
0
1
Q
Q
Hi Z
0
0
1
0
Q
Hi Z
Q
0
0
1
1
Q
Hi Z
Hi Z
0
1
0
0
Hi Z
Q
Q
0
1
0
1
Hi Z
Q
Hi Z
0
1
1
0
Hi Z
Hi Z
Q
0
1
1
1
Hi Z
Hi Z
Hi Z
1
0
0
0
Hi Z
Hi Z
Hi Z
1
0
0
1
Hi Z
Hi Z
PL
1
0
1
0
Hi Z
PL
Hi Z
1
0
1
1
Hi Z
PL
PL
1
1
0
0
PL
Hi Z
Hi Z
1
1
0
1
PL
Hi Z
PL
1
1
1
0
PL
PL
Hi Z
1
1
1
1
PL
PL
PL
1. In two's complement notation, the location of the binary
point that signifies the separation of the fractional and
integer fileds is just after the sign, between the sign bit
(-2°) and the next significant bit for the multiplier inputs.
This same format is carried over to the output format,
except that the extended significance of the integer filed is
provided to extend the utility of the accumulator. In the
case of the output rotation, the output binary point is
located between the2° and 21 bit positions. The location of
the binary point is arbitrary, as long as there is consistency
with both the input and output formats. The number filed
can be considered entirely integer with the binary point just
to the right of the least significant bit for the input, product
and the accumulated sum.
2. When in the non-accumulating mode, the first four bits (P34
to P31) will all indicate the sign of the product. Additionally,
the P30 term will also indicate the sign with one exception,
when multiplying -1 x -1. With the additional bits that are
available in this multiplier, the –1 x –1 is a valid operation
that yields a +1 product.
3. In operations that require the accumulation of single products or sum of products, there is no change in format. To
allow for a valid summation beyond that available for a
single multiplication product, three additional significant
bits (guard bits) are provided. This is the same as if the
product was accumulated off-chip in a separate 35-bit wide
adder. Taking the sign at the most significant bit position
will guarantee that the largest number field will be used.
When the accumulated sum only occupies the right hand
portion of the accumulator, the sign will be extended into
the lesser significant bit positions.
NOTES:
2577 tbl 02
Hi Z = Output buffers at high impedance (output disabled)
Q = Output buffers at low impedance. Contents of output register will be
transferred to output pins.
PL = Output buffers at high impedance or output disabled. Preload data
supplied externally at output pins will be loaded into the output
register at the rising edge of CLKP.
ABSOLUTE MAXIMUM RATINGS(1)
Symbol
Rating
VCC
Power Supply
Voltage
VTERM
Terminal Voltage
with Respect to
GND
TA
Operating
Temperature
TBIAS
Temperature
Under Bias
TSTG
Storage
Temperature
IOUT
DC Output
Current
CAPACITANCE (TA = +25°C, f = 1.0MHz)
Commercial
-0.5 to +7.0
Military
-0.5 to +7.0
Unit
V
–0.5 to
VCC +0.5V
–0.5 to
VCC +0.5V
V
0 to +70
–55 to +125
°C
–55 to +125
–65 to +135
°C
–55 to +125
–65 to +150
°C
50
50
mA
Symbol
Parameter(1)
CIN
Input Capacitance
COUT
Output Capacitance
Conditions
VIN = 0V
Max.
10
Unit
pF
VOUT = 0V
12
pF
NOTE:
2577 tbl 04
1. This parameter is measured at characterization and not 100%tested.
NOTE:
2577 tbl 03
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 above those indicated in the operational sections of this
specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.
11.2
4
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
DC ELECTRICAL CHARACTERISTICS
(Commercial: VCC = 5.0V ± 10%, TA = 0°C to +70°C; Military: VCC = 5V ± 10%, TA = –55°C to +125°C)
Commercial
Typ.(1)
—
Max.
—
Unit
—
Min.
2.0
—
0.8
—
—
0.8
V
—
—
10
—
—
10
µA
—
—
10
—
—
10
µA
2.4
—
—
2.4
—
—
V
VCC = Min., IOL = 4mA
—
—
0.4
—
—
0.4
V
VCC = Max., V0 GND
-20
—
-100
-20
—
-100
mA
VCC = Max., Outputs Enabled
f= 10MHz(2)
CL = 50 pF
VIN ≥ VIH, VIN ≤ VIL
—
45
90
—
45
110
mA
—
20
30
—
20
30
mA
—
4
10
—
4
12
mA
—
—
6
—
—
8
mA/
MHz
Symbol
Parameter
VIH
Input High Voltage
Test
Guaranteed Logic HIGH Level
Min.
2.0
Typ.(1)
VIL
Input Low Voltage
Guaranteed Logic LOW Level
—
|ILI|
Input Leakage Current
VCC = Max., VIN = 0V to VCC
|ILO|
Output Leakage Current
VOH
Output HIGH Voltage
VCC = Max., Outputs Disabled
VOUT = 0 to VCC
VCC = Min., IOH = –2.0mA
VOL(4)
Output LOW Voltage
IOS
Output Short Circuit Current
ICC (2)
Operating Power Supply Current
ICCQ1
Quiescent Power Supply Current
ICCQ2
Quiescent Power Supply Current
ICC/f (2,3) Increase in Power Supply
Current MHz
Military
Max.
—
Conditions(5)
VIN ≥ VCC –0.2V, V
IN
≤ 0.2V
VCC = Max., Outputs Disabled
V
2577 tbl 05
NOTES:
1. Typical implies VCC = 5V and TA = +25°C.
2. ICC is measured at 10MHz and VIN = 0 to 3V. For frequencies greater than 10MHz, the following equation is used for the commercial range:
ICC = 90+ 6(f –10)mA, where f = operating frequency in MHz. For the military range, ICC = 110 + 8(f –10). f = operating frequency in MHz, f = 1/tMA.
3. For frequencies greater than 10MHz, guaranteed by design, not production tested.
4. IOL = 4mA for tMA > 55ns.
5. For conditions shown as Max. or Min., use appropriate value specified under electrical characteristics.
AC ELECTRICAL CHARACTERISTICS COMMERCIAL (VCC = 5V ± 10%, TA = 0° to +70°C)
Symbol
t MA
tD
t ENA
t DIS
tS
tH
t PW
t HCL
Parameter
Multiply-Accumulate Time(2)
Output Delay (2)
3-State Enable Time
3-State Disable Time(1)
Input Register Set-up Time
Input Register Hold Time
Clock Pulse Width
Relative Hold Time
7210L20
Min. Max.
2.0 20
2.0 18
—
18
—
18
10
—
3
—
9
—
0
—
7210L25
Min. Max.
2.0 25
2.0 20
–
20
–
20
12
–
3
–
10
–
0
–
7210L35
Min. Max.
2.0 35
2.0 25
–
25
–
25
12
–
3
–
10
–
0
–
7210L45
Min. Max.
2.0 45
2.0 25
–
25
–
25
15
–
3
–
15
–
0
–
7210L55
Min. Max.
2.0 55
2.0 30
–
30
–
30
20
–
3
–
20
–
0
–
NOTES:
1. Transition is measured ±500mV from steady state voltage.
2. Minimum delays guaranteed but not tested
7210L65
Min. Max. Unit
2.0 65
ns
2.0 35
ns
–
30
ns
–
30
ns
25
–
ns
3
–
ns
25
–
ns
0
–
ns
2577 tbl 06
AC ELECTRICAL CHARACTERISTICS MILITARY (VCC = 5V ± 10%, TA = –55° to +125°C)
Symbol
t MA
tD
t ENA
t DIS
tS
tH
t PW
t HCL
Parameter
Multiply-Accumulate Time(2)
Output Delay (2)
3-State Enable Time
3-State Disable Time(1)
Input Register Set-up Time
Input Register Hold Time
Clock Pulse Width
Relative Hold Time
7210L25
Min. Max.
2.0 25
2.0 20
—
20
—
20
12
—
3
—
10
—
0
—
7210L30
Min. Max.
2.0 30
2.0 20
–
20
–
20
12
–
3
–
10
–
0
–
NOTES:
1. Transition is measured ±500mV from steady state voltage.
2. Minimum delays guaranteed but not tested
7210L40
Min. Max.
2.0 40
2.0 25
–
25
–
25
15
–
3
–
15
–
0
–
7210L55
Min. Max.
2.0 55
2.0 30
–
30
–
25
20
–
3
–
20
–
0
–
7210L65
Min. Max.
2.0 65
2.0 35
–
30
–
30
25
–
3
–
25
–
0
–
7210L75
Min. Max. Unit
2.0 75
ns
2.0 35
ns
–
35
ns
–
30
ns
25
–
ns
3
–
ns
25
–
ns
0
–
ns
2577 tbl 07
11.2
5
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
CONTROL AND
DATAIN
INPUT
tS
INPUT
CLOCK
tH
tPW
tHCL
tMA
OUTPUT
CLOCK
tPW
PRELOAD
THREE-STATE
CONTROL
tDIS
OUTPUT
tENA
tDIS
DATAOUT
HIGH IMPEDANCE
tS
tH
PRELOAD IN DATA
tENA
DATAOUT
tD
Figure 1. Timing Diagram
11.2
6
=
=
–20 2 –1
2–2
2 –3
2–4
2 –5
2–6
2 –7
Y8
Y 15 Y 14 Y 13 Y 12 Y 11 Y 10 Y 9
2–8
Y7
2–8
X7
2 –9
Y6
2 –9
X6
X4
X3
X2
X1
X0
Y4
Y3
Y2
Y1
Y0
2–10 2 –11 2–12 2 –13 2–14 2 –15
Y5
2–10 2 –11 2–12 2 –13 2–14 2 –15
X5
DIGIT
VALUE
SIGNAL
DIGIT
VALUE
SIGNAL
22
21
20
11.2
2
–2
2 –3
2
–4
2 –5
–1
2
2 –2
2
–3
2 –4
2 –4
2
2
–5
–5
2 –6
2 –6
–7
2
2
–8
Y8
–3
Y 15 Y 14 Y 13 Y 12 Y 11 Y 10 Y 9
2
–8
2 –2
–7
2
–1
X8
–6
2
2
–9
Y7
–9
X7
2
2
–8
2 –9
X5
X4
X3
X2
X1
X0
Y5
Y4
Y3
Y2
Y1
Y0
2 –10 2–11 2 –12 2–13 2 –14 2–15 2 –16
Y6
2 –10 2–11 2 –12 2–13 2 –14 2–15 2 –16
X6
22
XTP
1
2
20
–1
2
2 –2
2
–3
2 –4
2
–5
2 –6
–7
2
2 –8
–9
DIGIT
VALUE
SIGNAL
DIGIT
VALUE
SIGNAL
P7
P6
P5
P4
P3
P2
P1
P0
SIGNAL
P8
P7
LSP
P6
P5
P4
P3
P2
P1
P0
SIGNAL
2577 drw 10
LSP
2577 drw 11
DIGIT
2 –10 2–11 2 –12 2–13 2 –14 2–15 2 –16 2–17 2 –18 2–19 2 –20 2–21 2 –22 2–23 2 –24 2–25 2 –26 2–27 2 –28 2–29 2 –30 2–31 2 –32 VALUE
Figure 3. Fractional Unsigned Mgnitude Notation
MSP
2
P8
DIGIT
2–10 2 –11 2–12 2 –13 2–14 2 –15 2–16 2 –17 2–18 2 –19 2–20 2 –21 2–22 2 –23 2–24 2 –25 2–26 2 –27 2–28 2 –29 2–30 VALUE
Figure 2. Fractional Two’s Complement Notation.
MSP
2 –7
P 34 P 33 P 32 P 31 P 30 P 29 P 28 P 27 P 26 P 25 P 24 P 23 P 22 P 21 P 20 P 19 P 18 P 17 P 16 P 15 P 14 P 13 P 12 P 11 P 10 P 9
X
2 –1
X 15 X 14 X 13 X 12 X 11 X 10 X 9
BINARY POINT
XTP
–24 2 3
P 34 P 33 P 32 P 31 P 30 P 29 P 28 P 27 P 26 P 25 P 24 P 23 P 22 P 21 P 20 P 19 P 18 P 17 P 16 P 15 P 14 P 13 P 12 P 11 P 10 P 9
X
2 –5
2 –7
2–4
2–6
2 –3
–20 2 –1
2–2
X8
X 15 X 14 X 13 X 12 X 11 X 10 X 9
BINARY POINT
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
7
=
=
211
210
11.2
2
2
30
2
29
2
28
2
27
2
26
2
25
2
24
2
MSP
23
2
2
21
2
20
2
19
2
18
2
17
2
16
2
15
2
14
2
13
X
215
214
213
212
211
211
210
210
Y8
212
Y 15 Y 14 Y 13 Y 12 Y 11 Y 10 Y 9
213
28
214
XTP
234 233
2
32
231
30
2
229
2
28
227
2
26
2 25
24
2
MSP
2 23
2 21
20
2
2 19
18
2
2 17
2
16
215
2
14
213
2
12
Figure 5. Integer Unsigned Magnitude Notation
22
2
211
2
10
29
2
8
8
2
29
2
9
215
2
10
X8
2
11
X 15 X 14 X 13 X 12 X 11 X 10 X 9
12
2
Figure 4. Integer Two's Complement Notation
22
P8
2
31
P 34 P 33 P 32 P 31 P 30 P 29 P 28 P 27 P 26 P 25 P 24 P 23 P 22 P 21 P 20 P 19 P 18 P 17 P 16 P 15 P 14 P 13 P 12 P 11 P 10 P 9
2
32
28
XTP
33
29
–2
34
P8
212
P 34 P33 P 32 P31 P 30 P29 P 28 P 27 P 26 P 25 P 24 P23 P 22 P21 P 20 P19 P 18 P 17 P 16 P 15 P 14 P13 P 12 P11 P 10 P 9
213
28
–215 214
Y8
Y 15 Y 14 Y13 Y 12 Y11 Y 10 Y 9
29
X
210
28
211
29
212
–215 214
213
X8
X 15 X 14 X13 X 12 X11 X 10 X 9
2
LSP
27
P7
27
Y7
27
X7
LSP
7
P7
27
Y7
27
X7
2
6
P6
26
Y6
26
X6
2
6
P6
26
Y6
26
X6
25
P5
25
Y5
25
X5
2
5
P5
25
Y5
25
X5
2
4
P4
24
Y4
24
X4
2
4
P4
24
Y4
24
X4
23
P3
23
Y3
23
X3
2
3
P3
23
Y3
23
X3
2
2
P2
22
Y2
22
X2
2
2
P2
22
Y2
22
X2
2
0
P0
20
Y0
20
X0
DIGIT
VALUE
SIGNAL
DIGIT
VALUE
SIGNAL
DIGIT
VALUE
SIGNAL
21
2
0
P0
20
Y0
20
X0
DIGIT
VALUE
SIGNAL
DIGIT
VALUE
SIGNAL
DIGIT
VALUE
SIGNAL
2577 drw 13
P1
21
Y1
21
X1
BINARY POINT
2577 drw 12
2
1
P1
21
Y1
21
X1
BINARY POINT
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
8
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
TEST CIRCUITS AND WAVEFORMS
TEST CIRCUITS FOR ALL OUTPUTS
V CC
SWITCH POSITION
500Ω
V OUT
VIN
Pulse
Generator
Test
Switch
Open Drain
Disable Low
Closed
7.0V
Enable Low
Open
All Other Tests
D.U.T.
50pF
RT
2577 lnk 09
DEFINITIONS:
CL= Load capacitance: includes jig and probe capacitance.
RT = Termination resistance: should be equal to ZOUT of the Pulse
Generator.
500Ω
CL
2577 drw 06
SET-UP, HOLD AND RELEASE TIMES
DATA
INPUT
TIMING
INPUT
ASYNCHRONOUS CONTROL
PRESET
CLEAR
ETC.
SYNCHRONOUS CONTROL
PRESET
CLEAR
CLOCK ENABLE
ETC.
tH
tSU
tREM
tSU
PULSE WIDTH
3V
1.5V
0V
3V
1.5V
0V
LOW-HIGH-LOW
PULSE
1.5V
tW
3V
1.5V
0V
HIGH-LOW-HIGH
PULSE
1.5V
3V
1.5V
0V
tH
2577 drw 08
2577 drw 07
PROPAGATION DELAY
ENABLE AND DISABLE TIMES
ENABLE
SAME PHASE
INPUT TRANSITION
tPLH
tPHL
OUTPUT
tPLH
OPPOSITE PHASE
INPUT TRANSITION
tPHL
3V
1.5V
0V
VOH
1.5V
VOL
DISABLE
3V
CONTROL
INPUT
1.5V
tPZL
OUTPUT
NORMALLY
LOW
3V
1.5V
0V
SWITCH
CLOSED
2577 drw 09
SWITCH
OPEN
3.5V
3.5V
1.5V
tPZH
OUTPUT
NORMALLY
HIGH
0V
tPLZ
0.3V
VOL
tPHZ
0.3V
VOH
1.5V
0V
0V
2577 drw 10
NOTES:
1. Diagram shown for input Control Enable-LOW and input Control DisableHIGH
2. Pulse Generator for All Pulses: Rate ≤ 1.0MHz; tF ≤ 2.5ns; tR ≤ 2.5ns
11.2
9
IDT7210L
16 x 16 PARALLEL CMOS MULTIPLIER-ACCUMULATOR
MILITARY AND COMMERCIAL TEMPERATURE RANGES
ORDERING INFORMATION
IDT
XXXX
Device Type
A
Power
999
Speed
A
Package
X
Process/
Temperature
Range
Blank
B
Commercial (0°C to +70°C)
Military (–55°C to +125°C)
Compliant to MIL-STD-883, Class B
C
J
F
G
Topbraze DIP
Plastic Leaded Chip Carrier
Flatpack
Pin Grid Array
Com'l.
20
25
35
45
55
65
Mil.
25
30
40
55
65
75
Speed in Nanoseconds
L
Low Power
7210
16 x 16 Parallel Multiplier Accumulator
2577 drw 11
11.2
10
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