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| L2330 DEVICES INCORPORATED Coordinate Transformer L2330 DEVICES INCORPORATED Coordinate Transformer DESCRIPTION The L2330 is a coordinate transformer that converts bidirectionally between Rectangular and Polar coordinates. When in Rectangular-to-Polar mode, the L2330 is able to retrieve phase and magnitude information or backward map from a rectangular raster display to a radial data set. When in Polar-to-Rectangular mode, the L2330 is able to execute direct digital waveform synthesis and modulation. Real-time image-space conversions are achieved from radially-generated images, such as RADAR, SONAR, and ultrasound to raster display formats. Functional Description The L2330 converts bidirectionally between Rectangular (Cartesian) and Polar (Phase and Magnitude) coordinates. The user selects the numeric format. A valid transformed result is seen at the output after 22 clock cycles and will continue upon every clock cycle thereafter. When in Rectangular-to-Polar mode, the user inputs a 16-bit Rectangular coordinate and the output generates a Polar transformation with 16-bit magnitude and 16-bit phase. The user may select the data format to be either two's complement or sign-andmagnitude Cartesian data format. Polar Magnitude data is always in magnitude format only. Polar Phase Angle data is modulo 2 so it may be regarded as either unsigned or two's complement format. When in Polar-to-Rectangular mode, the user inputs 16-bit Polar Magnitude and 32-bit Phase data and the output generates a 16-bit Rectangular coordinate. The use may select the data format to be either two's complement or sign-and-magnitude Cartesian data format. FEATURES u Rectangular-to-Polar or Polar-toRectangular at 50 MHz u Performs Direct Digital Synthesis (DDS) functions along with PM and FM Modulation u 24-Bit Polar Phase Angle Accuracy u Replaces Fairchild TMC2330A u 120-pin PQFP L2330 BLOCK DIAGRAM ENXR XRIN15-0 ENYP1-0 YPIN31-0 16 2 32 16 OERX POLAR RXOUT15-0 OEPY 2 16 ACC1-0 TCXY RTP RECTANGULAR PYOUT15-0 OVF CLK Special Arithmetic Functions 1 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer Outputs ENYP1-0 32 M AM C 2 ACC1 ACC0 L2330 FUNCTIONAL BLOCK DIAGRAM XRIN15-0 ENXR 16 32 YPIN31-0 RXOUT15-0 -- x-coordinate/Magnitude Data Output RXOUT15-0 is the 16-bit Cartesian x-coordinate/Polar Magnitude Data output port. When OERX is HIGH, RXOUT15-0 is forced into the highimpedance state. PYOUT15-0 -- y-coordinate/Phase Angle Data Output PYOUT15-0 is the 16-bit Cartesian y-coordinate/Polar Phase Angle Data output port. When OEPY is HIGH, PYOUT15-0 is forced into the highimpedance state. Controls ENXR -- x-coordinate/Magnitude Data Input Enable 32 PM 32 FM **n 16 32 16 TCXY RTP 16 * TRANSFORM PROCESSOR **n 16 16 OERX 16 OEPY When ENXR is HIGH, XRIN is latched into the input register on the rising edge of clock. When ENXR is LOW, the value stored in the register is unchanged. ENYP1-0 -- y-coordinate/Phase Angle Data Input Control ENYP1-0 is the 2-bit y-coordinate/ Phase Angle Data Input Control that determines four modes as shown in RXOUT15-0 OVF PYOUT15-0 * REQUIRES 18 CYCLES TO COMPLETE AND IS FULLY PIPELINED ** WHEN RTP IS HIGH 'n' IS 16-BITS, WHEN RTP IS LOW 'n' IS 24-BITS SIGNAL DEFINITIONS Power VCC and GND +5V power supply. All pins must be connected. Clock CLK -- Master Clock The rising edge of CLK strobes all enabled registers. Inputs XRIN15-0 -- x-coordinate/Magnitude Data Input XRIN15-0 is the 16-bit Cartesian x-coordinate/Polar Magnitude Data input port. XRIN15-0 is latched on the rising edge of CLK. YPIN31-0 -- y-coordinate/Phase Angle Data Input YPIN31-0 is the 32-bit Cartesian y-coordinate/Polar Phase Angle Data input port. When RTP is HIGH, the input accumulators should not be used. When ACC is LOW, the upper 16 bits of YPIN are the input port and the lower 16 bits become "don't cares". YPIN31-0 is latched on the rising edge of CLK. TABLE 1. REGISTER OPERATION ENYP1-0 00 01 10 11 M Hold Load Hold Clear C Hold Hold Load Load TABLE 2. ACCUMULATOR CONTROL ACC1-0 Configuration 00 01 10 11 No accumulation (normal operation) PM accumulator path enabled FM accumulator path enabled Logical OR of PM and FM (Nonsensical) Special Arithmetic Functions 2 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer ACC1-0 -- Accumulator Control ACC1-0 is the 2-bit accumulator control that determines four modes as shown in Table 2. Changing of the internal phase Accumulator structure is very useful when RTP is LOW allowing for waveform synthesis and modulation. ACC1-0 set to `00' is most commonly used when RTP is HIGH unless performing backward mapping from Cartesian to Polar coordinates. TCXY -- Data Input/Output Format Select When TCXY is HIGH, two's complement format is selected. When TCXY is LOW, sign-and-magnitude format is selected. Table 1. `M' is the Modulation Register and `C' is the Carrier Register as shown in the Functional Block Diagram. RTP -- Rectangular-to-Polar When RTP is HIGH, Rectangular-toPolar conversion mode is selected. When RTP is LOW, Polar-to-Rectangular conversion mode is selected. FIGURE 1A. INPUT FORMATS XRIN YPIN (RTP = 0) Fract. Unsigned Mag./Two's Comp. 31 30 29 *20 2-1 2-2 210 2-29 2-30 2-31 Integer Unsigned Magnitude 15 14 13 215 214 213 210 22 21 20 Integer Signed Magnitude (RTP = 1, TCXY = 0) 15 14 13 NS 214 213 210 22 21 20 31 30 29 NS 214 213 18 17 16 22 21 20 Integer Two's Complement (RTP = 1, TCXY = 1) 15 14 13 -215 214 213 210 22 21 20 31 30 29 -215 214 213 18 17 16 22 21 20 (RTP = 0) Fractional Unsigned Magnitude Fract. Unsigned Mag./Two's Comp. 15 14 13 20 2-1 2-2 210 2-13 2-14 2-15 31 30 29 *20 2-1 2-2 210 2-29 2-30 2-31 Fractional Signed Magnitude (RTP = 1, TCXY = 0) 15 14 13 NS 2-1 2-2 210 2-13 2-14 2-15 31 30 29 NS 2-1 2-2 18 17 16 2-13 2-14 2-15 Fractional Two's Complement (RTP = 1, TCXY = 1) 15 14 13 -20 2-1 2-2 210 2-13 2-14 2-15 31 30 29 -20 2-1 2-2 18 17 16 2-13 2-14 2-15 *20 denotes two's complement sign or highest magnitude bit. Since phase angles are modulo 2 and phase accumulator is modulo 232, this bit may be regarded as . NS denotes negative sign. (i.e. '1' negates the number) Special Arithmetic Functions 3 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer OERX -- x-coordinate/Magnitude Data Output Enable When OERX is LOW, RXOUT15-0 is enabled for output. When OERX is HIGH, RXOUT15-0 is placed in a high-impedance state. OEPY -- y-coordinate/Phase Angle Data Output Enable When OEPY is LOW, PYOUT15-0 is enabled for output. When OEPY is HIGH, PYOUT15-0 is placed in a high-impedance state. OVF -- Overflow Flag OVF will go HIGH on the clock the magnitude of either of the current Cartesian coordinate outputs exceed the maximum range. OVF will return LOW on the clock that the Cartesian output value(s) return within range. An overflow condition can only occur when RTP is LOW. FIGURE 1B. OUTPUT FORMATS RXOUT PYOUT Integer Signed Magnitude (RTP = 0, TCXY = 0) 15 14 13 NS 214 213 210 22 21 20 15 14 13 NS 214 213 210 22 21 20 Integer Two's Complement (RTP = 0, TCXY = 1) 15 14 13 -215 214 213 210 22 21 20 15 14 13 -215 214 213 210 22 21 20 Integer Unsigned Magnitude 15 14 13 215 214 213 210 22 21 20 (RTP = 1) Fract. Unsigned Mag./Two's Comp. 15 14 13 *20 2-1 2-2 210 2-13 2-14 2-15 Fractional Signed Magnitude (RTP = 0, TCXY = 0) 15 14 13 NS 2-1 2-2 210 2-13 2-14 2-15 15 14 13 NS 2-1 2-2 210 2-13 2-14 2-15 Fractional Two's Complement (RTP = 0, TCXY = 1) 15 14 13 -20 2-1 2-2 210 2-13 2-14 2-15 15 14 13 -20 2-1 2-2 210 2-13 2-14 2-15 (RTP = 1) Fractional Unsigned Magnitude Fract. Unsigned Mag./Two's Comp. 15 14 13 20 2-1 2-2 210 2-13 2-14 2-15 15 14 13 *20 2-1 2-2 210 2-13 2-14 2-15 *20 denotes two's complement sign or highest magnitude bit. Since phase angles are modulo 2 and phase accumulator is modulo 2 , this bit may be regarded as . NS denotes negative sign. (i.e. '1' negates the number) 32 Special Arithmetic Functions 4 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer complement number system is not symmetric about zero. For example, if the X or Y component of the input is -32768 (8000H), no overflow occurs. But if the X or Y component of the input is +32768, overflow does occur. When converting from Rectangular-toPolar, if both inputs are zero the radius is zero but the angle is not defined. The L2330 will output 4707H in this case. Since the angle is not defined for a zero length vector, this is not an error. Conversion Ranges The L2330 supports 16-bit unsigned radii and 16-bit signed Cartesian coordinates. Since the 16-bit rectangular coordinate space does not completely cover the polar space defined by 16-bit radii, certain values of "r" will not map correctly. This condition is indicated by the overflow (OVF) flag. In Polar-to-Rectangular conversions, no overflow occurs for r 32767 (7FFFH). Overflow will always occur when r > 46341 (B505H). Note that in signed magnitude mode r = 46340 (B504H) will also cause an overflow. For 32767 r 46340, overflow may occur depending on the exact values of r and . Figure 2 shows, for the first quadrant, these three regions: A = no overflow (correct conversion), B = possible overflow, C = overflow. The other quadrants are mapped in a similar manner. When in signed magnitude mode, the overflows on the other three quadrants are the same as in the first. This occurs because the signed magnitude number system is symmetric about zero. For example, if a given r and angle cause an overflow, the same r will cause an overflow for the angles -, + , -. However, when in two's complement mode, the overflows aren't quite the same. This occurs because the two's FIGURE 2. CONVERSION RANGES 65535 /2 C 32767 B A y r x 32767 65535 Special Arithmetic Functions 5 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer Rectangular coordinates input to the device. These vectors, with maximum word width of 16-bits, were sent through a 16-bit internal processor versus a 24-bit internal processor. The Rectangular coordinates were limited to the following conditions: -32769 TABLE 3. Error DOUBLE CONVERSION ERROR Internal 16-bit 0.0216 -0.0036 1.5736 1.0756 2.0168 1.4356 6.0/-7.0 5.0/-5.0 2.0168 1.4357 Internal 24-bit -0.0118 -0.0028 0.5116 0.5160 0.7664 0.7738 3.0/-3.0 3.0/-3.0 0.7664 0.7739 Mean Error (X) Mean Error (Y) Mean Absolute Error (X) Mean Absolute Error (Y) Root Mean Square Error (X) Root Mean Square Error (Y) Max Error (X) Max Error (Y) Standard Deviation of Error (X) Standard Deviation of Error (Y) Special Arithmetic Functions 6 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer step resolution on a 24-bit internal processor is 1 unit in the x and y thus resulting in greater accuracy. The minimum theoretical angle resolution that could be produced is 0.00175 when x = 7FFFH and y = 1H. A 16-bit internal processor can produce a minimum angle resolution of only 0.00549 and will not be able to properly calculate the theoretical minimum angle resolution. On the other hand, a 24-bit internal processor can produce a minimum angle resolution of 0.00002 and could therefore properly calculate the theoretical minimum angle resolution. Circle Test When performing a polar-to-rectangular transformation, a 24-bit internal processor proves to be significantly more accurate than a 16-bit internal processor. In this study, we compare how accurately a coordinate transformer with a 16-bit internal processor versus a 24-bit internal processor can calculate all the coordinates of a circle. By setting the radius to 7FFFH (maximum before overflow), is incremented using the accumulator of the L2330 in steps of 0000 4000H until all the points of a full circle are calculated into rectangular coordinates. The resulting rectangular coordinates were plotted and graphed. A graphical representation of the resulting vectors for both 16-bit and 24-bit internal processors are compared near 45. Theoretically, a perfect circle is the desired output but when the resulting vectors from a coordinate transformer with 16-bit internal processor are graphed and displayed as shown in Figure 3, we see significant errors due to the inherent properties of a digital coordinate transformation system. In comparison, the 24-bit internal processor proves to be significantly more accurate than a 16-bit internal processor due to minimization of truncation errors. In many applications, this margin of error is of great significance especially when being used in applications such as medical ultrasound or modulation techniques. Data values for Figure 3 and Figure 4 are shown in Table 4. By looking at these values, we observe the step resolution on a 16-bit internal processor is not 1 unit in the x and y. In most cases, the minimum step resolution is 2 units in the x and y. On the other hand, FIGURE 3. CIRCLE TEST RESULT NEAR 45 (16-BIT INTERNAL PROCESSOR) 23200 23190 23180 Y 23170 23160 23150 23140 23140 23150 23160 23170 23180 23190 23200 X FIGURE 4. CIRCLE TEST RESULT NEAR 45 (24-BIT INTERNAL PROCESSOR) 23200 23190 23180 Y 23170 23160 23150 23140 23140 23150 23160 23170 23180 23190 23200 X Special Arithmetic Functions 7 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer TABLE 4. x 23201 23199 23199 23199 23199 23197 23197 23197 23197 23195 23195 23195 23195 23192 23192 23192 23192 23190 23190 23190 23190 23187 23187 23187 23187 23185 23185 23185 23185 23183 RESULTANT DATA VALUES OF CIRCLE TEST NEAR 45 24-bit Internal Processor x 23199 23198 23198 23197 23197 23196 23196 23195 23194 23194 23194 23193 23192 23191 23191 23191 23190 23189 23189 23189 23188 23187 23186 23186 23186 23185 23184 23184 23184 23183 x (HEX) 5A9F 5A9E 5A9E 5A9D 5A9D 5A9C 5A9C 5A9B 5A9A 5A9A 5A9A 5A99 5A98 5A97 5A97 5A97 5A96 5A95 5A95 5A95 5A94 5A93 5A92 5A92 5A92 5A91 5A90 5A90 5A90 5A8F y 23140 23141 23141 23142 23142 23143 23143 23144 23145 23145 23145 23146 23147 23148 23148 23148 23149 23150 23150 23150 23151 23152 23153 23153 23153 23154 23155 23155 23155 23156 y (HEX) 5A64 5A65 5A65 5A66 5A66 5A67 5A67 5A68 5A69 5A69 5A69 5A6A 5A6B 5A6C 5A6C 5A6C 5A6D 5A6E 5A6E 5A6E 5A6F 5A70 5A71 5A71 5A71 5A72 5A73 5A73 5A73 5A74 y 23139 23141 23141 23141 23141 23143 23143 23143 23143 23145 23145 23145 23145 23148 03148 23148 23148 23150 23150 23150 23150 23152 23152 23152 23152 23154 23154 23154 23154 23156 y (HEX) 5A63 5A65 5A65 5A65 5A65 5A67 5A67 5A67 5A67 5A69 5A69 5A69 5A69 5A6C 5A6C 5A6C 5A6C 5A6E 5A6E 5A6E 5A6E 5A70 5A70 5A70 5A70 5A72 5A72 5A72 5A72 5A74 16-bit Internal Processor x (HEX) 5AA1 5A9F 5A9F 5A9F 5A9F 5A9D 5A9D 5A9D 5A9D 5A9B 5A9B 5A9B 5A9B 5A98 5A98 5A98 5A98 5A96 5A96 5A96 5A96 5A93 5A93 5A93 5A93 5A91 5A91 5A91 5A91 5A8F Special Arithmetic Functions 8 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer MAXIMUM RATINGS Above which useful life may be impaired (Notes 1, 2, 3, 8) Storage temperature ........................................................................................................... -65C to +150C Operating ambient temperature ........................................................................................... -55C to +125C VCC supply voltage with respect to ground ............................................................................ -0.5 V to +7.0 V Input signal with respect to ground ............................................................................... -0.5 V to VCC + 0.5 V Signal applied to high impedance output ...................................................................... -0.5 V to VCC + 0.5 V Output current into low outputs ............................................................................................................. 25 mA Latchup current ............................................................................................................................... > 400 mA OPERATING CONDITIONS To meet specified electrical and switching characteristics Mode Active Operation, Commercial Active Operation, Military Temperature Range (Ambient) 0C to +70C -55C to +125C Supply Voltage 4.75 V VCC 5.25 V 4.50 V VCC 5.50 V ELECTRICAL CHARACTERISTICS Over Operating Conditions (Note 4) Symbol VOH VOL VIH VIL IIX IOZ ICC1 ICC2 CIN COUT Parameter Output High Voltage Output Low Voltage Input High Voltage Input Low Voltage Input Current Output Leakage Current VCC Current, Dynamic VCC Current, Quiescent Input Capacitance Output Capacitance (Note 3) Test Condition VCC = Min., IOH = -2.0 mA VCC = Min., IOL = 4.0 mA Min 2.4 Typ Max Unit V 0.4 2.0 0.0 VCC 0.8 10 10 95 5 10 10 V V V A A mA mA pF pF Ground VIN VCC (Note 12) Ground VOUT VCC (Note 12) (Notes 5, 6) (Note 7) TA = 25C, f = 1 MHz TA = 25C, f = 1 MHz Special Arithmetic Functions 9 09/27/2001-LDS.2330-E 432109876543210987654321 432109876543210987654321 432109876543210987654321 432109876543210987654321 *DISCONTINUED SPEED GRADE Symbol Symbol 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6543210987654321 543210987654321 6543210987654321 6543210987654321 6 Min DEVICES INCORPORATED MILITARY OPERATING RANGE (-55C to +125C) Notes 9, 10 (ns) COMMERCIAL OPERATING RANGE (0C to +70C) Notes 9, 10 (ns) SWITCHING CHARACTERISTICS tDIS tENA tD tH tS tPWH tPWL tCYC tDIS tENA tD tH tS tPWH tPWL tCYC Parameter Parameter Three-State Output Disable Delay (Note 11) Three-State Output Enable Delay (Note 11) Output Delay Input Hold Time Input Setup Time Clock Pulse Width High Clock Pulse Width Low Cycle Time Three-State Output Disable Delay (Note 11) Three-State Output Enable Delay (Note 11) Output Delay Input Hold Time Input Setup Time Clock Pulse Width High Clock Pulse Width Low Cycle Time 10 11 10 50 50 13 12 8 8 2 1 50* 50* Max Max Special Arithmetic Functions 15 15 25 13 13 22 Coordinate Transformer Min Min 25 25 7 7 2 0 9 8 7 7 L2330- 25* L2330- 25 Max Max 14 14 20 13 13 18 Min Min 09/27/2001-LDS.2330-E 20 20 6 6 1 0 7 7 6 6 20* 20 L2330 Max Max 18 16 13 13 13 13 L2330 DEVICES INCORPORATED Coordinate Transformer NO ACCUMULATION 1 tH tPWH tCYC 00 00 00 SWITCHING WAVEFORMS: 0 CLK RTP TCXY ACC1-0 ENXR ENYP1-0 XRIN15-0 YPIN31-0 RXOUT15-0 PYOUT15-0 2 3 22 23 24 tPWL tS EN EN EN A B C tD f(A) f(B) SWITCHING WAVEFORMS: 0 CLK PHASE MODULATION 1 2 3 4 22 23 24 25 RTP, TCXY ACC1-0 00 01 01 01 01 ENXR XRIN15-0 R ENYP1-0 10 01 01 01 01 YPIN31-0 RXOUT15-0 PYOUT15-0 C I J K L C+I 2C + J 3C + K 4C + L Special Arithmetic Functions 11 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer NOTES 9. AC specifications are tested with input transition times less than 3 ns, output reference levels of 1.5 V (except tDIS test), and input levels of nominally 0 to 3.0 V. Output loading may be a resistive divider which provides for specified IOH and IOL at an output voltage of VOH min and VOL max 2. The products described by this spec- respectively. Alternatively, a diode ification include internal circuitry de- bridge with upper and lower current signed to protect the chip from damagsources of IOH and IOL respectively, ing substrate injection currents and ac- and a balancing voltage of 1.5 V may be cumulations of static charge. Never- used. Parasitic capacitance is 30 pF theless, conventional precautions minimum, and may be distributed. should be observed during storage, handling, and use of these circuits in This device has high-speed outputs caorder to avoid exposure to excessive pable of large instantaneous current electrical stress values. pulses and fast turn-on/turn-off times. As a result, care must be exercised in the 3. This device provides hard clamping testing of this device. The following of transient undershoot and overshoot. measures are recommended: Input levels below ground or above VCC will be clamped beginning at - a. A 0.1 F ceramic capacitor should be 0.6 V and VCC + 0.6 V. The device can installed between VCC and Ground withstand indefinite operation with in- leads as close to the Device Under Test puts in the range of -0.5 V to +7.0 V. (DUT) as possible. Similar capacitors Device operation will not be adversely should be installed between device VCC affected, however, input current levels and the tester common, and device ground and tester common. will be well in excess of 100 mA. 4. Actual test conditions may vary b. Ground and VCC supply planes from those designated but operation is must be brought directly to the DUT guaranteed as specified. socket or contactor fingers. 5. Supply current for a given application c. Input voltages should be adjusted to can be accurately approximated by: compensate for inductive ground and VCC noise to maintain required DUT input NCV2 F levels relative to the DUT ground pin. 4 where 10. Each parameter is shown as a minN = total number of device outputs C = capacitive load per output V = supply voltage F = clock frequency 6. Tested with all outputs changing every cycle and no load, at a 20 MHz clock rate. 7. Tested with all inputs within 0.1 V of VCC or Ground, no load. 8. These parameters are guaranteed but not 100% tested. imum or maximum value. Input requirements are specified from the point of view of the external system driving the chip. Setup time, for example, is specified as a minimum since the external system must supply at least that much time to meet the worst-case requirements of all parts. Responses from the internal circuitry are specified from the point of view of the device. Output delay, for example, is specified as a maximum since worst-case operation of any device always provides data within that time. 1. Maximum Ratings indicate stress specifications only. Functional operation of these products at values beyond those indicated in the Operating Conditions table is not implied. Exposure to maximum rating conditions for extended periods may affect reliability. 11. For the tENA test, the transition is measured to the 1.5 V crossing point with datasheet loads. For the tDIS test, the transition is measured to the 200mV level from the measured steady-state output voltage with 10mA loads. The balancing voltage, VTH, is set at 3.5 V for Z-to-0 and 0-to-Z tests, and set at 0 V for Zto-1 and 1-to-Z tests. 12. These parameters are only tested at the high temperature extreme, which is the worst case for leakage current. FIGURE A. OUTPUT LOADING CIRCUIT DUT S1 IOL CL IOH VTH FIGURE B. THRESHOLD LEVELS tENA OE Z 0 1.5 V 1.5 V 1.5 V tDIS 3.5V Vth VOL* 0.2 V 0 1 Z Z 1.5 V VOH* 0.2 V Z 1 0V Vth VOL* Measured VOL with IOH = -10mA and IOL = 10mA VOH* Measured VOH with IOH = -10mA and IOL = 10mA Special Arithmetic Functions 12 09/27/2001-LDS.2330-E L2330 DEVICES INCORPORATED Coordinate Transformer ORDERING INFORMATION PYOUT5 PYOUT6 GND PYOUT7 PYOUT8 PYOUT9 GND PYOUT10 PYOUT11 PYOUT12 VCC PYOUT13 PYOUT14 PYOUT15 GND OVF RXOUT0 RXOUT1 VCC RXOUT2 RXOUT3 RXOUT4 GND RXOUT5 RXOUT6 RXOUT7 GND RXOUT8 RXOUT9 VCC 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 VCC PYOUT4 PYOUT3 GND PYOUT2 PYOUT1 PYOUT0 VCC OEPY GND RTP CLK GND TCXY ENYP0 GND ENYP1 ACC0 ACC1 VCC YPIN0 YPIN1 YPIN2 YPIN3 YPIN4 YPIN5 YPIN6 GND YPIN7 YPIN8 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 120-pin 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 Top View RXOUT10 RXOUT11 GND RXOUT12 RXOUT13 RXOUT14 VCC RXOUT15 GND OERX VCC XRIN15 XRIN14 XRIN13 GND XRIN12 XRIN11 XRIN10 XRIN9 XRIN8 XRIN7 XRIN6 GND XRIN5 XRIN4 XRIN3 GND XRIN2 XRIN1 VCC Speed 0C to +70C -- COMMERCIAL SCREENING 25 ns 20 ns L2330QC25 L2330QC20 GND YPIN9 YPIN10 VCC YPIN11 YPIN12 YPIN13 YPIN14 YPIN15 YPIN16 YPIN17 VCC YPIN18 YPIN19 YPIN20 GND YPIN21 YPIN22 YPIN23 VCC YPIN24 YPIN25 YPIN26 YPIN27 YPIN28 YPIN29 YPIN30 YPIN31 ENXR XRIN0 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 Plastic Quad Flatpack (Q1) Special Arithmetic Functions 13 09/27/2001-LDS.2330-E 121098765432109876543210987654321210987654321098765432109876543212109876543210987654321098765432 1210987654321098765432109876543212109876543210987654321098765432121098765432109876543210987654321 1210987654321098765432109876543212109876543210987654321098765432121098765432109876543210987654321 1210987654321098765432109876543212109876543210987654321098765432121098765432109876543210987654321 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YPI13 YPI16 YPI18 YPI20 YPI23 YPI25 YPI28 ENXR XRI1 YPI7 YPI4 YPI1 2 GND GND YPI3 VCC VCC VCC CLK 3 GND VCC 4 Ceramic Pin Grid Array (G4) Discontinued Package Top View Through Package (i.e., Component Side Pinout) YPI14 GND 5 KEY 14 VCC VCC 6 GND GND 7 VCC VCC 8 YPI27 YPI31 GND 9 Special Arithmetic Functions GND 10 GND GND GND XRI12 XRI13 GND RXO14 RXO15 XRI9 XRI10 XRI11 VCC VCC VCC VCC RXO11 RXO13 11 Coordinate Transformer XRI15 XRI14 GND OERX XRI3 XRI5 XRI7 12 XRI2 XRI4 XRI6 XRI8 13 09/27/2001-LDS.2330-E L2330 |
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