MITEL PDSP16330B

PDSP16330/A/B
Pythagoras Processor
Supersedes version in December 1993 Digital Video & DSP IC Handbook, HB3923-1
DS3884 - 1.3 September 1996
The PDSP16330 is a high speed digital CMOS IC that
converts Cartesian data (Real and Imaginary) into Polar form
(Magnitude and Phase), at rates up to 20MHz. Cartesian
16+16 bit 2's complement or Sign-Magnitude data is
converted into 16 bit Phase format. The Magnitude output may
be scaled in amplitude by powers of 2. The Phase output
represents a full 2 x π field to eliminate phase ambiguities.
PIN 1A INDEX MARK
ON TOP SURFACE
A
B
C
Polyimide is used as an inter-layer dielectric and as
glassivation.
D
E
F
The PDSP16330 is offered in three speed grades: a
basic 10MHz part (PDSP16330), a 20MHz version
(PDSP16330A) and a 25MHz version (PDSP16330). A MILSTD-883 version is also detailed in a separate datasheet.
G
H
J
K
L
FEATURES
25MHz Cartesian to Polar Conversion
16-Bit Cartesian Inputs
16-Bit Magnitude Output
12-Bit Phase Output
2’s Complement or Sign-Magnitude Input Formats
Three-state Outputs and Independent
Data Enables Simplify System Interfacing
Magnitude Scaling Facility with Overflow Flag
Less than 400 mW Power Dissipation at 10MHz
84-pin PGA or 100 pin QFP Package or 84 LCC
11 10 9 8 7
6
5 4 3
2 1
AC84
Fig.1 Pin connections - bottom view (PGA)
APPLICATIONS
Digital Signal Processing
Digital Radio
Radar Processing
Sonar Processing
Robotics
ASSOCIATED PPODUCTS
PDSP16112
PDSP16116
PDSP16318
PDSP16350
PDSP16510A
16 X 12 Complex Multiplier
16 X 16 Complex Multiplier
Complex Accumulator
I/Q Splitter and NCO
Stand Alone FFT Processor
GG100/R
Fig.2 Pin connections - QFP Package
PDSP16330/A/B
π
Fig.2 Block diagram
FUNCTIONAL DESCRIPTION
The PDSP16330 converts incoming Cartesian Data
into the equivalent Polar Values. The device accepts new 16
+ 16 bit complex data every cycle, and delivers a 16 bit + 12
bit Polar equivalent after 24 clock cycles.The input data can be
in 2s’ Complement or Sign Magnitude format selected via the
FORM input. The output is in a magnitude format for both the
Magnitude output and the Phase. Phase data is zero for data
with a zero Y input and positive X, and is 400 hex for zero X
data and positive Y, is 800 hex for zero Y data and negative X,
and is C00 hex for zero X and negative Y. The LSB weighting
(bit 0) is 2 x π/4096 radians. The 16 bit Magnitude result may
be scaled by shifting one, two, or three places in the more
significant direction, effectively multiplying the Magnitude
result by 2,4 or 8 respectively. Any of these shifts can under
certain conditions cause an invalid result to be output from the
device. Under these circumstances the OVR output will
become active. The PDSP16330 has independent clock
enables and three state output controls for all ports.
S1-0
These inputs select the scaling factor to be applied to
the Magnitude output. They are latched by the rising edge of
CLK and determine the scaling of the output in the cycle after
they are loaded into the device. The scale factor applied is
determined by the table. Should the scaling factor applied
cause an invalid Magnitude result to be output on the M Port,
then the OVR Flag will become active for the period that the
M Port output is invalid.
S1
S0
Scaling Factor
0
0
x1
0
1
x2
1
0
x4
1
1
x8
FORM
This input selects the format of the X and Y input data.
A low level on FORM indlcates that the Input data is twos’
complement format (Note: input data 8000 hex is not valid in
2s’ complement mode). This input refers to the format of the
current Input data and may be changed on a per cycle basis
if desired. The level of FORM is latched at the same time as
the data to which it refers.
2
The output number range is from 0 to 2 when the
scaling factor is set at x1.
PDSP16330/A/B
PIN DESCRIPTIONS
Symbol
Pin Name and Description
CLK
Vcc
Clock: Common Clock to device Registers. Register contents change on the rising edge of clock.
Both pins must be connected.
Clock Enable: Clock Enable for X Port. The clock to the X port is enabled by a low level.
Clock Enable: Clock Enable for Y Port The clock to the Y port is enabled by a low level.
X Data Input Data presented to this input is loaded into the device by the rising edge of CLK.
X15 is the MSB
Y Data Input Data presented to this input is loaded into the device by the rising edge of CLK.
Y15 is the MSB
M Data Output: Magnitude data generated by the device is output on this port. Data changes on
the rising edge of CLK, M15 is the MSB. The weighting of M15 is determined by the Scale factor
selected .
P Data Output: Phase data generated by the device is output on this port. Data changes on the
rising edge of CLK, P11 is the MSB. The weighting of P11 is π radians.
Output Enable: Output Enable for M Port. The M Port is in a high impedance state when this input
is high.
Output Enable: Output Enable for P Port. The P Port is in a high impedance state when this input
is high.
Format Select This input selects the format of the Cartesian Data input on the X and Y ports.
This input is latched by the rising edge of CLK, and is applied at the same time as the data to
which it refers. A low !evel indicates that two’s complement data is applied, a high indicates
Sign-Magnitude
Scaling Control: Control input for scaling of Magnitude Data. This input is latched by the rising
edge of CLK, and determines the scaling to be applied to the Magnitude result. The Scaling is
applied to the output data in the cycle following the cycle in which the control was latched.
Overflow: Overflow flag. This signal becomes active if the scaling currently selected causes an
invalid value to be presented to the Magnitude output.
+5V supply. All Vcc pins must be connected.
GND
0V supply. All GND pins must be connected.
CEX
CEY
X15-X0
Y15-Y0
M15-M0
P11-P0
OEM
OEP
FORM
S1-S0
OVR
INPUT DATA RANGE
2's Complement
Sign Magnitude
7FFF
.
.
.
0001
0000
FFFF
.
.
.
8001
7FFF
.
.
.
0001
0000
8000
.
.
.
FFF
3
PDSP16330/A/B
PIN FUNCTION
Pin No.
AC
GG
Function
Pin No.
AC
GG
Function Pin No.
AC
F3
G3
G1
G2
F1
H1
H2
J1
K1
J2
L1
K2
K3
L2
L3
K4
L4
J5
K5
L5
K6
J6
J7
L7
K7
L6
L8
K8
91
92
93
94
95
96
97
98
99
100
1
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
M7
M6
M5
M4
M3
M2
M1
M0
S0
S1
GND
Vcc
FORM
Y15
Y14
Y13
Y12
Y11
Y10
Y9
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
L9
L10
K9
L11
K10
J10
K11
J11
H10
H11
F10
G10
G11
G9
F9
F11
E11
E10
E9
D11
D10
C11
B11
C10
A11
B10
B9
A10
23
24
25
26
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
57
58
YO
CEY
CLK
Vcc
GND
GND
GND
GND
GND
GND
GND
OEP
P0
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
GND
Vcc
CEX
X0
A9
B8
A8
B6
B7
A7
C7
C6
A6
A5
B5
C5
A4
B4
A3
A2
B3
A1
B2
C2
B1
C1
D2
D1
E3
E2
E1
F2
GG
Function
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
81
82
83
84
85
86
87
88
89
90
X1
X2
X3
X4
X5
X6
X7
X8
X9
X10
X11
X12
X13
X14
X15
CLK
OVR
Vcc
GND
OEM
M15
M14
M13
M12
M11
M10
M9
M8
ELECTRICAL CHARACTERISTICS
Test conditions (unless otherwise stated): Tamb (Commercial) = 0°C to + 70°C, Tamb (Industrial) = -40°C to + 85°C
Vcc (Commercial) = 5.0V + 5%, Vcc (Industrial and Military) = 5.0V + 1%, GND = 0V
STATIC CHARACTERISTICS
Value
Characteristic
Min.
*
*
*
*
*
*
*
†
*
†
Output high voltage
Output low voltage
Input high voltage (CMOS)
Input low voltage (CMOS)
Input high voltage (TTL)
Input low voltage (TTL)
Input leakage current (Note 1 )
Input capacitance
Output leakage current
Output SC current
SubUnits group
Symbol
VOH
VOL
VIH
VIL
VIH
VIL
IIL
CIN
loz
IOS
Typ.
2.4
0.6
3.0
1.0
2.2
0.8
+ 120
-10
10
-50
-50
Conditions
Max.
+ 50
230
V
V
V
V
V
V
µA
pF
µA
mA
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
IOH = 3.2mA
lOL=-3.2mA
Inputs CEX, CEY and CLK only
Inputs CEX, CEY and CLK only
All other inputs
All other inputs
GND < VIN<VCC
1,2,3
GND <VIN < VCC
Vcc = Max
NOTES
1. All inputs except clock inputs have high value pull-down resistors
2. All parameters marked * are tested during production. Parameters marked † are guaranteed by design and characterisation.
4
PDSP16330/A/B
SWITCHING CHARACTERISTICS
Value
Characteristic
PDSP16330
Min.
†
†
†
†
†
†
†
*
†
†
†
†
†
†
†
†
Input data setup to clock rising edge
Input data Hold after clock rising edge
CEX, CEY Setup to clock rising edge
CEX, CEY Hold aher clock rising edge
FORM, S1:0 Setup to clock rising edge
FORM, S1:0 Hold after clock rising edge
Clock rising edge to valid data
Clock period
Clock high time
Clock low time
Latency
OEM, OEP low to data high data valid
OEM, OEP low to data low data valid
OEM, OEP high to data high impedance
OEM, OEP low to data high impedance
Vcc current (TTL input levels)
†
Vcc current (CMOS input levels)
15
2
30
0
15
7
5
100
25
25
24
Max.
40
24
30
30
30
30
110
70
PDSP16330A PDSP16330B
Min.
12
2
12
0
12
2
5
50
15
15
24
Max.
Min.
24
25
25
25
25
180
12
2
12
0
12
2
5
40
15
15
24
25
25
25
25
225
120
150
25
Units
Conditions
Max.
25
24
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
cycles
ns
ns
ns
ns
mA
mA
2 x LSTTL + 20pF
2 x LSTTL + 20pF
2 x LSTTL + 20pF
2 x LSTTL + 20pF
2 x LSTTL + 20pF
VCC = Max
Outputs unloaded
Clock freq. = Max
VCC = Max
Outputs unloaded
Clock freq. = Max
NOTES
1. LSTTL is equivalent to IOH = 20µA, I OL = -0.4mA
2. Current is defined as negative into the device
3. CMOS input levels are defined as: VIH = VDD - 0.5V, VIL = +0.5V
4. All parameters marked * are tested during production.
Parameters marked † are guaranteed by design and characterisation.
5. All timings are dependent on silicon speed. This speed is tested by measuring clock period.
This guarantees all other timings by characterisation and design.
ABSOLUTE MAXIMUM RATINGS
Supply voltage, Vcc
-0.5V to + 7.0V
Input voltage, VIN
-0.5V to VCC + 0.5V
Output voltage, Vour
-0.5V to VCC + 0.5V
Clamp diode current per pin, IK (see Note 2)
±18mA
Static discharge voltage (HMB), VSTAT
500V
Storage temperature. Tstg
-65°C to + 150°C
Ambient temperature with
power applied Tamb:
Commercial
0°C to + 70°C
Industrial
-40°C to + 85°C
Military
-55 °C to + 125°C
Package power dissipation PTOT
1200mW
Junction temperature
150°C
THERMAL CHARACTERISTICS
Package Type
AC
GG
θJC°C/W
θJA°C/W
12
12
36
35
NOTES
1. Exceeding these ratings may cause permanent damage.
Functional operatlon under these conditions is not implied.
2. Maximum dissipation or 1 second should not be exceeded;
only one output to be tested at any one time.
3. Exposure to Absoulte Maximum Ratings for extended periods
may affect device reliability.
5
PDSP16330/A/B
ORDERING INFORMATION
Commercial (0°C to +70°C)
PDSP16330 CO AC
PDSP16330A CO AC
PDSP16330B CO AC
(10MHZ - PGA Package)
(20MHZ - PGA Package)
(25MHZ - PGA Package)
Industrial (-40°C to +85°C)
PDSP16330
PDSP16330A
PDSP16330A
PDSP16330B
BO
BO
BO
BO
AC
AC
GG
AC
10MHZ
20MHZ
20MHZ
25MHZ
-
PGA Package
PGA Package
GG Package
PGA Package
20MHZ
20MHZ
10MHz
20MHz
-
PGA Package
GG Package
GG Package Mil 883C Screened
PGA Package Mil 883C Screened
Military (-55°C to +125°C)
PDSP16330A
PDSP16330A
PDSP16330
PDSP16330A
6
AO
AO
AC
AC
AC
GG
GG
AC
PDSP16330/A/B
Fig.3 Three state delay measurement load
7
PDSP16330/A/B
8
PDSP16330/A/B
9
PDSP16330/A/B
10
PDSP16330/A/B
11
PDSP16330/A/B
HEADQUARTERS OPERATIONS
MITEL SEMICONDUCTOR
Cheney Manor, Swindon,
Wiltshire SN2 2QW, United Kingdom.
Tel: (01793) 518000
Fax: (01793) 518411
MITEL SEMICONDUCTOR
1500 Green Hills Road,
Scotts Valley, California 95066-4922
United States of America.
Tel (408) 438 2900
Fax: (408) 438 5576/6231
Internet: http://www.gpsemi.com
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These are supported by Agents and Distributors in major countries world-wide.
© Mitel Corporation 1998 Publication No. DS3884 Issue No. 1.3 September 1996
TECHNICAL DOCUMENTATION – NOT FOR RESALE. PRINTED IN UNITED KINGDOM
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as a representation relating to the products or services concerned. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. The Company
reserves the right to alter without prior notice the specification, design or price of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any
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