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| FINAL COM'L: H-25 PALCE29M16H-25 24-Pin EE CMOS Programmable Array Logic DISTINCTIVE CHARACTERISTICS s High-performance semicustom logic Advanced Micro Devices s Register/Latch Preload permits full logic replacement; Electrically Erasable (EE) technology allows reprogrammability s 16 bidirectional user-programmable I/O logic verification s High speed (tPD = 25 ns, fMAX = 33 MHz and fMAX internal = 50 MHz) s Full-function AC and DC testing at the factory macrocells for Combinatorial/Registered/ Latched operation s Output Enable controlled by a pin or product for high programming and functional yields and high reliability s 24-Pin 300 mil SKINNYDIP and 28-pin plastic terms s Varied product term distribution for increased leaded chip carrier packages s Extensive third-party software and programmer design flexibility s Programmable clock selection with two clocks/ support through FusionPLD partners latch enables (LEs) and LOW/HIGH clock/LE polarity GENERAL DESCRIPTION The PALCE29M16 is a high-speed, EE CMOS Programmable Array Logic (PAL) device designed for general logic replacement in TTL or CMOS digital systems. It offers high speed, low power consumption, high programming yield, fast programming and excellent reliability. PAL devices combine the flexibility of custom logic with the off-the-shelf availability of standard products, providing major advantages over other semicustom solutions such as gate arrays and standard cells, including reduced development time and low up-front development cost. BLOCK DIAGRAM CLK/LE I/CLK/LE I/OF7 I/OF6 I/O7 I/O 6 I/O 5 I/O4 I/OF5 I/OF4 2 OE PTs I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell V V V V V OE PTs V V 2 8 8 12 16 16 12 8 V 8 2 Programmable AND Array 58 x 188 2 8 8 12 16 16 12 8 8 2 V V V V V V V V OE PTs 2 I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell I/O Logic Macrocell OE PTs 3 I 0 -I 2 I/OE I/OF0 I/OF 1 I/O0 I/O 1 I/O 2 I/O 3 I/OF 2 I/OF3 08740G-1 Publication# 08740 Rev. G Issue Date: June 1993 Amendment /0 2-327 AMD GENERAL DESCRIPTION (continued) The PALCE29M16 uses the familiar sum-of-products (AND-OR) structure, allowing users to customize logic functions by programming the device for specific applications. It provides up to 29 array inputs and 16 outputs. It incorporates AMD's unique input/output logic macrocell which provides flexible input/output structure and polarity, flexible feedback selection, multiple Output Enable choices, and a programmable clocking scheme. The macrocells can be individually programmed as combinatorial, registered, or latched with active-HIGH or active-LOW polarity. The flexibility of the logic macrocells permits the system designer to tailor the device to particular application requirements. Increased logic power has been built into the PALCE29M16 by providing a varied number of logic product terms per output. Eight outputs have 8 product terms each, four outputs have 12 product terms each, and the other four outputs have 16 product terms each. This varied product-term distribution allows complex functions to be implemented in a single PAL device. Each output can be dynamically controlled by a common Output Enable pin or Output Enable product terms per bank of four outputs. Each output can also be permanently enabled or disabled. System operation has been enhanced by the addition of common asynchronous-Preset and Reset product terms and a power-up Reset feature. The PALCE29M16 also incorporates Preload and Observability functions which permit full logic verification of the design. The PALCE29M16 is offered in the space-saving 300-mil SKINNYDIP package as well as the plastic leaded chip carrier package. CONNECTION DIAGRAMS Top View SKINNYDIP I/OF0 I0 CLK/LE I0 I/OF0 I/OF1 I/O0 I/O1 I/O2 I/O3 I/OF2 I/OF3 I/OE GND 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 VCC I2 I/OF7 I/OF6 I/O7 I/O6 I/O5 I/O4 I/OF5 I/OF4 I1 I/CLK/LE 08740G-2 PLCC CLK/LE I/OF7 25 24 23 22 21 20 19 12 13 14 15 16 17 18 I/OF3 I/OE GND NC I/CLK/LE I1 I/OF4 08740G-3 NC VCC 4 I/OF1 I/O0 I/O1 NC I/O2 I/O3 I/OF2 5 6 7 8 9 10 11 3 2 1 28 27 26 I/OF6 I/O7 I/O6 NC I/O5 I/O4 I/OF5 Note: Pin 1 is marked for orientation. PIN DESIGNATIONS CLK/LE GND I I/CLK/LE I/O I/OF NC VCC = = = = = = = = Clock/Latch Enable Ground Input Input or Clock/Latch Enable Input/Output Input/Output with Dual Feedback No Connection Supply Voltage 2-328 PALCE29M16H-25 I2 AMD ORDERING INFORMATION Commercial Products AMD programmable logic products for commercial applications are available with several ordering options. The order number (Valid Combination) is formed by a combination of: PAL CE 29 M 16 H -25 P C /4 FAMILY TYPE PAL = Programmable Array Logic TECHNOLOGY CE = CMOS Electrically Erasable NUMBER OF ARRAY INPUTS OUTPUT TYPE M = Advanced Macrocell NUMBER OF FLIP-FLOPS POWER H = Half Power (100 mA) SPEED -25 = 25 ns PACKAGE TYPE P = 24-Pin Plastic SKINNYDIP (PD3024) J = 28-Pin Plastic Leaded Chip Carrier (PL 028) OPTIONAL PROCESSING Blank = Standard processing PROGRAMMING REVISION /4 = First Revision (Requires current programming Algorithm) TEMPERATURE RANGE C = Commercial (0C to +75C) Valid Combinations PALCE29M16H-25 PC, JC /4 Valid Combinations Valid Combinations lists configurations planned to be supported in volume for this device. Consult the local AMD sales office to confirm availability of specific valid combinations and to check on newly released combinations. PALCE29M16H-25 (Com'l) 2-329 AMD FUNCTIONAL DESCRIPTION Inputs The PALCE29M16 has 29 inputs to drive each product term (up to 58 inputs with both TRUE and complement versions available to the AND array) as shown in the block diagram in Figure 1. Of these 29 inputs, 3 are dedicated inputs, 16 are from 8 I/O logic macrocells with two feedbacks, 8 are from other I/O logic macrocells with single feedback, one is the I/OE input and one is the I/CLK/LE input. Initially the AND-array gates are disconnected from all the inputs. This condition represents a logical TRUE for the AND array. By selectively programming the EE cells, the AND array may be connected to either the TRUE input or the complement input. When both the TRUE and complement inputs are connected, a logical FALSE results at the output of the AND gate. connected to a fixed-OR plane. Product terms are allocated to OR gates in a varied distribution across the device ranging from 8 to 16 wide, with an average of 11 logic product terms per output. An increased number of product terms per output allows more complex functions to be implemented in a single PAL device. This flexibility aids in implementing functions such as counters, exclusive-OR functions, or complex state machines, where different states require different numbers of product terms. Common asynchronous-Preset and Reset product terms are connected to all Registered or Latched I/Os. When the asynchronous-Preset product term is asserted (HIGH) all the registers and latches will immediately be loaded with a HIGH, independent of the clock. When the asynchronous-Reset product term is asserted (HIGH) all the registers and latches will be immediately loaded with a LOW, independent of the clock. The actual output state will depend on the macrocell polarity selection. The latches must be in latched mode (not transparent mode) for the Reset, Preset, Preload, and power-up Reset modes to be meaningful. Product Terms The degree of programmability and complexity of a PAL device is determined by the number of connections that form the programmable-AND and OR gates. Each programmable-AND gate is called a product term. The PALCE29M16 has 188 product terms; 176 of these product terms provide logic capability and 12 are architectural or control product terms. Among the 12 control product terms, two are for common AsynchronousPreset and Reset, one is for Observability, and one is for Preload. The other eight are common Output Enable product terms. The Output Enable of each bank of four macrocells can be programmed to be controlled by a common Output Enable pin or two AND/XOR product terms. It may be also permanently enabled or permanently disabled. Each product term on the PALCE29M16 consists of a 58-input AND gate. The outputs of these AND gates are Input/Output Logic Macrocells The I/O logic macrocell allows the user the flexibility of defining the architecture of each input or output on an individual basis. It also provides the capability of using the associated pin either as an input or an output. The PALCE29M16 has 16 macrocells, one for each I/O pin. Each I/O macrocell can be programmed for combinatorial, registered or latched operation (see Figure 2). Combinatorial output is desired when the PAL device is used to replace combinatorial glue logic. Registers and Latches are used in synchronous logic applications. Common I/OE Pin OE PTs For Banks of 4 Macrocells Common Asynchronous Preset P0 P11 or P15 CLK/LE I/CLK/LE S4 Common Asynchronous Reset 1 To AND Array S8 0 1 1 0 0 1 0 1 0 S5 1 0 S3 Preset Q D Q CLK/LE Reset VCC 0 1 1 0 S6 1 1 0 0 S7 1 0 1 0 S0 1 1 0 0 S1 I/OX S2 V RX 08740G-4 Figure 2a. PALCE29M16 Macrocell (Single Feedback) 2-330 PALCE29M16H-25 AMD The output polarity for each macrocell in each of the three modes of operation is user-selectable, allowing complete flexibility of the macrocell configuration. Eight of the macrocells (I/OF0-I/OF7) have two independent feedback paths to the AND array (see Figure 2b). The first is a dedicated I/O pin feedback to the AND array for combinatorial input. The second path consists of a direct register/latch feedback to the array. If the pin is used as a dedicated input using the first feedback path, the register/latch feedback path is still available to the AND array. This path provides the capability of using the register/latch as a buried state register/latch. The other eight macrocells have a single feedback path to the AND array. This feedback is user-selectable as either an I/O pin or a register/latch feedback (see Figure 2a). Each macrocell can provide true input/output capability. The user can select each macrocell register/latch to be driven by either the signal generated by the AND-OR array or the I/O pin. When the I/O pin is selected as the input, the feedback path provides the register/latch input to the array. When used as an input, each macrocell is also user-programmable for registered, latched, or combinatorial input. The PALCE29M16H has a dedicated CLK/LE pin and an I/CLK/LE pin. All macrocells have a programmable switch to choose between these two pins as the clock or latch enable signal. These signals are clock signals for macrocells configured as registers and latch enable signals for macrocells configured as latches. The polarity of these CLK/LE signals is also individually programmable. Thus different registers or latches can be driven by different clocks and clock phases. The Output-Enable mode of each of the macrocells can be selected by the user. The I/O pin can be configured as an output pin (permanently enabled) or as an input pin (permanently disabled). It can also be configured as a dynamic I/O controlled by the Output Enable pin or by two AND-XOR product terms which are available for each bank of four I/O Logic Macrocells. I/O Logic Macrocell Configuration AMD's unique I/O macrocell offers major benefits through its versatile, programmable input/output cell structure, multiple clock choices, flexible Output Enable and feedback selection. Eight I/O macrocells with single feedback contain 9 EE cells, while the other eight macrocells contain 8 EE cells for programming the input/ output functions (see Table 1). EE cell S1 controls whether the macrocell will be combinatorial or registered/latched. S0 controls the output polarity (active-HIGH or active-LOW). S2 determines whether the storage element is a register or a latch. S3 allows the use of the macrocell as an input register/latch or as an output register/latch. It selects the direction of the data path through the register/latch. If connected to the usual AND-OR array output, the register/latch is an output connected to the I/O pin. If connected to the I/O pin, the register/latch becomes an input register/latch to the AND array using the feedback data path. Programmable EE cells S4 and S5 allow the user to select one of the four CLK/LE signals for each macrocell. S6 and S7 are used to control Output Enable as pin controlled, two-product-term-controlled, permanently enabled or permanently disabled. S8 controls a feedback multiplexer for the macrocells with a single feedback path only. Using the programmable EE cells S0-S8 various input and output configurations can be selected. Some of the possible configuration options are shown in Figure 3. In the unprogrammed state (charged, disconnected), an architectural cell is said to have a value of "1"; in the programmed state (discharged, connected to GND), an architectural cell is said to have a value of "0." VCC 0 1 1 0 S6 1 0 1 0 S0 CLK/LE Reset V Common I/OE Pin OE PTs For Banks of 4 Macrocells Common Asynchronous Preset P0 P7 CLK/LE I/CLK/LE S4 Common Asynchronous Reset To AND Array To AND Array 1 1 0 0 1 0 1 0 S5 1 0 S3 Preset Q D Q 1 1 0 0 S7 1 1 0 0 S1 I/OFX S2 RFX 08740G-5 Figure 2b. PALCE29M16 Macrocell (Dual Feedback) PALCE29M16H-25 2-331 AMD Table 1a. PALCE29M16 I/O Logic Macrocell Architecture Selections S3 1 0 I/O Cell Output Cell Input Cell S2 1 0 Storage Element Register Latch S1 1 0 Output Type Combinatorial Register/Latch S0 1 0 Output Polarity Active LOW Active HIGH S8 1 0 Feedback* Register/Latch I/O *Applies to macrocells with single feedback only. Table 1b. PALCE29M16 I/O Logic Macrocell Clock Polarity and Output Enable Selections S4 1 1 0 0 S5 1 0 1 0 Clock Edge/Latch Enable Level CLK/LE pin positive-going edge, active-LOW LE CLK/LE pin negative-going edge, active-HIGH LE I/CLK/LE pin positive-going edge, active-LOW LE I/CLK/LE pin negative-going edge, active-HIGH LE S6 1 1 0 0 S7 1 0 1 0 Output Buffer Control Pin-Controlled Three-State Enable XOR PT-Controlled Three-State Enable Permanently Enabled (Output only) Permanently Disabled (Input only) Notes: 1 = Erased State (charged or disconnected). 0 = Programmed State (discharged or connected). *Active-LOW LE means that data is stored when the LE pin is HIGH, and the latch is transparent when the LE pin is LOW. Active-HIGH LE means the opposite. 2-332 PALCE29M16H-25 AMD SOME POSSIBLE CONFIGURATIONS OF THE INPUT/OUTPUT LOGIC MACROCELL (For other useful configurations, please refer to the macrocell diagrams in Figure 2. All macrocell architecture cells are independently programmable). D V Q Q S0 = 0 S1 = 0 S3 = 1 S2 = 1 D V Q Q S0 = 1 S1 = 1 S3 = 1 08740G-6 08740G-7 Output Registered/Active Low Output Combinatorial/Active Low D V Q Q S0 = 0 S1 = 0 S3 = 1 S2 = 1 D V Q Q S0 = 0 S1 = 1 S3 = 1 08740G-8 08740G-9 Output Registered/Active High Output Combinatorial/Active High Figure 3a. Dual Feedback Macrocells D V Q Q S0 = 1 S1 = 0 S3 = 1 S8 = 0 S2 = 1 S0 = 1 S1 = 1 S3 = 1 S8 = 0 08740G-10 08740G-11 Output Registered/Active Low, I/O Feedback Output Combinatorial/Active Low, I/O Feedback D Q S0 = 0 S1 = 0 S3 = 1 S8 = 0 S2 = 0 S0 = 0 S1 = 1 S3 = 1 S8 = 0 LE Q 08740G-12 08740G-13 Output Latched/Active High, I/O Feedback Output Combinatorial/Active High, I/O Feedback Figure 3b. Single Feedback Macrocells PALCE29M16H-25 2-333 AMD POSSIBLE CONFIGURATIONS OF THE INPUT/OUTPUT LOGIC MACROCELL D V Q D Q S0 = 1 S1 = 0 S3 = 1 S8 = 1 S2 = 1 V Q Q S0 = 1 S1 = 1 S3 = 1 S8 = 1 S2 = 1 08740G-14 08740G-15 Output Registered/Active Low, Register Feedback Output Combinatorial/Active Low, Register Feedback D Q D Q S0 = 1 S1 = 0 S3 = 1 S8 = 1 S2 = 0 S0 = 1 S1 = 1 S3 = 1 S8 = 1 S2 = 0 LE Q LE Q 08740G-16 08740G-17 Output Latched/Active Low, Latched Feedback Output Combinatorial/Active Low, Latched Feedback Figure 3b. Single Feedback Macrocells (continued) D V Q S3 = 0 S8 = 1 (For Single Feedback Only) S2 = 1 Register = 0 Latch Programmable-AND Array 08740G-18 Input Registered/Latched Figure 3c. All Macrocells 2-334 PALCE29M16H-25 AMD Power-Up Reset All flip-flops power up to a logic LOW for predictable system initialization. The outputs of the PALCE29M16 depend on whether they are selected as registered or combinatorial. If registered is selected, the output will be LOW if programmed as active LOW and HIGH if programmed as active HIGH. If combinatorial is selected, the output will be a function of the logic. pin for each of the logic macrocells. This unique feature allows for easy debugging and tracing of the buried state machines. In addition, a capability of supervoltage observability is also provided. Security Cell A security cell is provided on each device to prevent unauthorized copying of the user's proprietary logic design. Once programmed, the security cell disables the programming, verification, preload, and the observability modes. The only way to erase the protection cell is by erasing the entire array and architecture cells, in which case no proprietary design can be copied. (This cell should be programmed only after the rest of the device has been completely programmed and verified.) Preload To simplify testing, the PALCE29M16 is designed with preload circuitry that provides an easy method for testing logical functionality. Both product-term-controlled and supervoltage-enabled preload modes are available. The TTL-level preload product term can be useful during debugging, where supervoltages may not be available. Preload allows any arbitrary state value to be loaded into the registers/latches of the device. A typical functional-test sequence would be to verify all possible state transitions for the device being tested. This requires the ability to set the state registers into an arbitrary "present state" value and to set the device's inputs into an arbitrary "present input" value. Once this is done, the state machine is clocked into a new state, or "next state," which can be checked to validate the transition from the "present state." In this way any transition can be checked. Since preload can provide the capability to go directly to any desired arbitrary state, test sequences may be greatly shortened. Also, all possible states can be tested, thus greatly reducing test time and development costs and guaranteeing proper in-system operation. Programming and Erasing The PALCE29M16 can be programmed on standard logic programmers. It may also be erased to reset a previously configured device back to its virgin state. Erasure is automatically performed by the programming hardware. No special erasure operation is required. Quality and Testability The PALCE29M16 offers a very high level of built-in quality. The erasability of the device provides a direct means of verifying performance of all the AC and DC parameters. In addition, this verifies complete programmability and functionality of the device to yield the highest programming yield and post-programming functional yield in the industry. Technology The high-speed PALCE29M16 is fabricated with AMD's advanced electrically-erasable (EE) CMOS process. The array connections are formed with proven EE cells. Inputs and outputs are designed to be compatible with TTL devices. This technology provides strong inputclamp diodes, output slew-rate control, and a grounded substrate for clean switching. Observability The output register/latch observability product term, when asserted, suppresses the combinatorial output data from appearing on the I/O pin and allows the observation of the contents of the register/latch on the output PALCE29M16H-25 2-335 AMD LOGIC DIAGRAM DIP (PLCC) Pinouts CLK/LE (2) 1 0 4 8 12 16 20 24 28 32 36 40 44 48 52 56 (3) 2 I0 (4) 3 I/OF0 INPUT/ OUTPUT MACRO OBSERVE PRODUCT TERM 23(27) I2 22(26) I/OF7 INPUT/ OUTPUT MACRO (5) 4 I/OF1 INPUT/ OUTPUT MACRO PRESET PRODUCT TERM INPUT/ OUTPUT MACRO 21 (25) I/OF6 (6) 5 I/O 0 INPUT/ OUTPUT MACRO INPUT/ OUTPUT MACRO 20 (24) I/O7 (7) 6 I/O1 INPUT/ OUTPUT MACRO 19 (23) I/O 6 INPUT/ OUTPUT MACRO Continued on Next Page 08740G-19 2-336 PALCE29M16H-25 AMD LOGIC DIAGRAM DIP (PLCC) Pinouts 0 4 8 12 16 20 24 28 32 36 40 44 48 52 56 (9) 7 I/O 2 INPUT/ OUTPUT MACRO 18 (21) I/O 5 INPUT/ OUTPUT MACRO (10) 8 I/O 3 INPUT/ OUTPUT MACRO INPUT/ OUTPUT MACRO 17 (20) I/O4 (11) 9 I/OF 2 INPUT/ OUTPUT MACRO INPUT/ OUTPUT MACRO 16 (19) I/OF 5 (12) 10 I/OF 3 INPUT/ OUTPUT MACRO PRELOAD PRODUCT TERM INPUT/ OUTPUT MACRO 15 (18) I/OF 4 (13) 11 I/OE RESET PRODUCT TERM 14 (17) I1 13 (16) I/CLK/LE 0 4 8 12 16 20 24 28 32 36 40 44 48 52 56 08740G-19 (concluded) PALCE29M16H-25 2-337 AMD ABSOLUTE MAXIMUM RATINGS Storage Temperature . . . . . . . . . . . -65C to +150C Ambient Temperature with Power Applied . . . . . . . . . . . . . -55C to +125C Supply Voltage with Respect to Ground . . . . . . . . . . . . . -0.5 V to +7.0 V DC Input Voltage . . . . . . . . . . . -0.5 V to VCC + 0.5 V DC Output or I/O Pin Voltage . . . . . . . . . . . . . . . -0.5 V to VCC + 0.5 V Static Discharge Voltage . . . . . . . . . . . . . . . . . 2001 V Latchup Current (TA = 0C to +75C) . . . . . 100 mA Stresses above those listed under Absolute Maximum Ratings may cause permanent device failure. Functionality at or above these limits is not implied. Exposure to Absolute Maximum Ratings for extended periods may affect device reliability. Programming conditions may differ. OPERATING RANGES Commercial (C) Devices Ambient Temperature (TA) Operating in Free Air . . . . . . . . . . . . . . . 0C to 75C Supply Voltage (VCC) with Respect to Ground . . . . . . . . . . 4.75 V to 5.25 V Operating ranges define those limits between which the functionality of the device is guaranteed. DC CHARACTERISTICS over COMMERCIAL operating ranges unless otherwise specified Parameter Symbol VOH VOL Parameter Description Output HIGH Voltage Output LOW Voltage Test Conditions IOH = -2 mA IOL = 8 mA IOL = 4 mA IOL = 20 A VIH VIL IIH IIL IOZH IOZL ISC ICC Input HIGH Voltage Input LOW Voltage Input HIGH Leakage Current Input LOW Leakage Current Off-State Output Leakage Current HIGH Off-State Output Leakage Current LOW Output Short-Circuit Current Supply Current Guaranteed Input Logical HIGH Voltage for all Inputs (Note 1) Guaranteed Input Logical LOW Voltage for all Inputs (Note 1) VIN = 5.5 V, VCC = Max (Note 2) VIN = 0 V, VCC = Max (Note 2) VOUT = 5.5 V, VCC = Max VIN = VIH or VIL (Note 2) VOUT = 5.5 V, VCC = Max VIN = VIH or VIL (Note 2) VOUT = 0.5 V, VCC = Max (Note 3) VIN = 0 V, Outputs Open (IOUT = 0 mA) VCC = Max -30 2.0 0.8 10 -10 10 -10 -130 100 VIN = VIH or VIL VCC = Min VIN = VIH or VIL VCC = Min Min 2.4 0.5 0.33 0.1 V V A A A A mA mA V Max Unit V Notes: 1. These are absolute values with respect to device ground all overshoots due to system and/or tester noise are included. 2. I/O pin leakage is the worst case of IIL and IOZL (or IIH and IOZH). 3. Not more than one output should be shorted at a time and duration of the short-circuit should not exceed one second. VOUT = 0.5 V has been chosen to avoid test problems caused by tester ground degradation. 2-338 PALCE29M16H-25 (Com'l) AMD CAPACITANCE (Note 1) Parameter Symbol CIN COUT Parameter Description Input Capacitance Output Capacitance Test Conditions VIN = 0 V VOUT = 0 V VCC = 5.0 V, TA = 25C, f = 1 MHz Typ 5 8 Unit pF pF Note: 1. These parameters are not 100% tested, but are evaluated at initial characterization and at any time the design is modified where capacitance may be affected. SWITCHING CHARACTERISTICS Registered Operation Parameter Symbol tPD Parameter Description Input or I/O Pin to Combinatorial Output Min Max 25 Unit ns Combinatorial Output Output Register tSOR tCOR tHOR Input Register tSIR tCIR tHIR I/O Pin to Input Register Setup Register Feedback Clock to Combinatorial Output Data Hold Time for Input Register 6 2 28 ns ns ns Input or I/O Pin to Output Register Setup Output Register Clock to Output Data Hold Time for Output Register 0 15 15 ns ns ns Clock and Frequency tCIS fMAX fMAXI tCWH tCWL Register Feedback to Output Register/Latch Setup Maximum Frequency 1/(tSOR + tCOR) Maximum Internal Frequency 1/tCIS Pin Clock Width HIGH Pin Clock Width LOW 20 33.3 50 8 8 ns MHz MHz ns ns CLK AND-OR Array tCIS V tCIS V tSIR I/O Input Register Output Register tCOR I/O I/O tSOR tPD I/O tCIR tPD 08740G-20 PALCE29M16H-25 (Com'l) 2-339 AMD SWITCHING WAVEFORMS Combinatorial Input VT tPD Combinatorial Output VT 08740G-21 Combinatorial Output Combinatorial Input tSOR Clock tHOR VT tCOR Registered Output VT VT 08740G-22 Output Register Registered Input tSIR Clock tCIR Combinatorial Output tHIR 08740G-23 Input Register tCIS Clock tCWH tCWL 08740G-24 Clock Width 2-340 PALCE29M16H-25 AMD SWITCHING CHARACTERISTICS Latched Operation Parameter Symbol tPD tPTD Output Latch tSOL tGOL tHOL tSTL Input Latch tSIL tGIL tHIL Latch Enable tGIS tGWH tGWL Latch Feedback to Output Register/Latch Setup Pin Enable Width HIGH Pin Enable Width LOW 20 8 8 ns ns ns I/O Pin to Input Latch Setup Latch Feedback, Latch Enable Transparent Mode to Combinatorial Output Data Hold Time for Input Latch 6 2 28 ns ns ns Input or I/O Pin to Output Latch Setup Latch Enable to Output Through Transparent Output Latch Data Hold Time for Output Latch Input or I/O Pin to Output Latch Setup via Transparent Input Latch 0 18 15 15 ns ns ns ns Parameter Description Input or I/O Pin to Combinatorial Output Input or I/O Pin to Output via One Transparent Latch Min Max 25 28 Unit ns ns Combinatorial Output LE AND-OR Array tGIS Output Latch tGOL tPTD I/O tGIS tSTL tSIL tPTD I/O Input Latch I/O tSOL tPTD tPD I/O tGIL tPTD tPD 08740G-25 Input/Output Latch Specs PALCE29M16H-25 (Com'l) 2-341 AMD SWITCHING WAVEFORMS Latched Input Combinatorial Input Combinatorial Output tPTD VT tPTD Latched Transparent VT tPD LE tGWL tGWL VT 08740G-27 LE Width Latched Output VT 08740G-26 Latch (Transparent Mode) LE Latched VT tGIS LE Transparent Transparent Input Latch VT Latched Output Latch 08740G-29 Latched Input Combinatorial Input Input and Output Latch Relationship VT tSTL VT tSOL tHOL VT VT Transparent tGOL VT LE Latched Output tSTL VT tSTL VT Note 1 08740G-28 Output Latch Latched Input VT t SIL t HIL VT VT t GIL VT LE Transparent Combinatorial Output t PTD VT VT Note: Input Latch 08740G-30 1. If the combinatorial input changes while LE is in the latched mode and LE goes into the transparent mode after tPTD ns has elapsed, the corresponding latched output will change tGOL ns after LE goes into the transparent mode. If the combinatorial input change while LE is in the latched mode and LE goes into the transparent mode before tPTD ns has elapsed, the corresponding latched output will change at the later of the following--tPTD ns after the combinatorial input changes or tGOL ns after LE goes into the latched mode. 2-342 PALCE29M16H-25 AMD SWITCHING CHARACTERISTICS Reset/Preset, Enable Parameter Symbol tAPO tAW tARO tARI tPZX tPXZ tEA Parameter Description Input or I/O Pin to Output Register/Latch Reset/Preset Asynchronous Reset/Preset Pulse Width Asynchronous Reset/Preset to Output Register/Latch Recovery Asynchronous Reset/Preset to Input Register/Latch Recovery 15 15 12 Min Max 30 Unit ns ns ns ns Combinatorial Output Output Enable Operation I/OE Pin to Output Enable I/OE Pin to Output Disable (Note 1) Input or I/O to Output Enable via PT 20 20 25 25 ns ns ns ns tER Input or I/O to Output Disable via PT (Note 1) Note: 1. Output disable times do not include test load RC time constants. SWITCHING WAVEFORMS . Combinatorial Asynchronous Reset/Preset t APO t AW VT Registered/Latched Output Clock VT t ARO VT Output Register/Latch Reset/Preset 08740G-31 Pin 11 Combinatorial/ Registered/ Latched Output t AW VT t ARI t PXZ V OH - 0.5 V V OL + 0.5 V VT t PZX VT Pin 11 to Output Disable/Enable 08740G-32 Combinatorial Asynchronous Reset/Preset Clock VT Input Register/Latch Reset/Preset 08740G-33 Combinatorial Input Combinatorial/ Registered/Latched Output t ER VOH - 0.5 V VOL + 0.5 V VT t EA VT Input to Output Disable/Enable PALCE29M16H-25 (Com'l) 08740G-34 2-343 AMD KEY TO SWITCHING WAVEFORMS WAVEFORM INPUTS Must be Steady May Change from H to L May Change from L to H Don't Care, Any Change Permitted Does Not Apply OUTPUTS Will be Steady Will be Changing from H to L Will be Changing from L to H Changing, State Unknown Center Line is HighImpedance "Off" State KS000010 SWITCHING TEST CIRCUIT S1 5V R1 Output R2 CL 08740G-35 Specification tPD, tCO, tGOL tEA, tPZX tER, tPXZ Switch S1 Closed ZH: open ZL: closed HZ: open LZ: closed CL R1 R2 Measured Output Value 1.5 V 35 pF 5 pF 470 390 1.5 V HZ: VOH -0.5 V LZ: VOL +0.5 V 2-344 PALCE29M16H-25 AMD PRELOAD The PALCE29M16 has the capability for product-term Preload. When the global-preload product term is true, the PALCE29M16 will enter the preload mode. This feature aids functional testing by allowing direct setting of register states. The procedure for Preload is as follows: Set the selected input pins to the user selected preload condition. Apply the desired register value to the I/O pins. This sets Q of the register. The value seen on the I/O pin, after Preload, will depend on whether the macrocell is active high or active low. Parameter Symbol tD tW tI/O Parameter Description Delay Time Pulse Width Valid Output Pulse the clock pin (pin 1). Remove the inputs to the I/O pins. Remove the Preload condition. Verify VOL/VOH for all output pins as per programmed pattern. Because the Preload command is a product term, any input to the array can be used to set Preload (including I/O pins and registers). Preload itself will change the values of the I/O pins and registers. This will have unpredictable results. Therefore, only dedicated input pins should be used for the Preload command. Min 0.5 250 100 Rec. 1.0 500 Max 5.0 700 500 Unit s ns ns VIH Inputs Preload Mode VIL tD I/O Pins Data to be Preloaded tIO VOH/VIH VOL/VIL tD CLK Pin 1 (2) tD VIH tW VIL 08740G-36 Preload Waveform PALCE29M16H-25 2-345 AMD OBSERVABILITY The PALCE29M16 has the capability for product-term Observability. When the global-Observe product term is true, the PALCE29M16 will enter the Observe mode. This feature aids functional testing by allowing direct observation of register states. When the PALCE29M16 is in the Observe mode, the output buffer is enabled and the I/O pin value will be Q of the corresponding register. This overrides any OE inputs. The procedure for Observe is: Remove the inputs to all the I/O pins. Parameter Symbol tD tI/O Parameter Description Delay Time Valid Output Set the inputs to the user selected Observe configuration. The register values will be sent to the corresponding I/O pins. Remove the Observe configuration from the selected I/O pins. Because the Observe command is a product term, any input to the array can be used to set Observe (including I/O pins and registers). If I/O pins are used, the observe mode could cause a value change, which would cause the device to oscillate in and out of the Observe mode. Therefore, only dedicated input pins should be used for the Observe command. Min 0.5 100 Rec. 1.0 Max 5.0 500 Unit s ns Input Pins VIH Observe Mode VIL tD tIO VOH I/O Pins VOL VIH CLK Pin 1 (2) VIL 08740G-37 Observability Waveform 2-346 PALCE29M16H-25 AMD POWER-UP RESET The registered devices in the AMD PAL Family have been designed with the capability to reset during system power-up. Following power-up, all registers will be reset to LOW. The output state will depend on the polarity of the output buffer. This feature provides extra flexibility to the designer and is especially valuable in simplifying state machine initialization. A timing diagram and parameter table are shown below. Due to the Parameter Symbol tPR tS tW tR Parameter Description Power-Up Reset Time Input or Feedback Setup Time Clock Width VCC Rise Time asynchronous operation of the power-up reset, and the wide range of ways VCC can rise to its steady state, two conditions are required to ensure a valid power-up reset. These conditions are: The VCC rise must be monotonic. Following reset, the clock input must not be driven from LOW to HIGH until all applicable input and feedback setup times are met. Min Max 10 Unit s See Switching Characteristics 500 s Power 4V VCC tPR tR Registered Active LOW Output tS Clock tW 08740G-38 Power-Up Reset Waveform PALCE29M16H-25 2-347 AMD TYPICAL THERMAL CHARACTERISTICS Measured at 25C ambient. These parameters are not tested. Parameter Symbol jc ja jma Typ Parameter Description Thermal Impedance, Junction to Case Thermal Impedance, Junction to Ambient Thermal Impedance, Junction to Ambient with Air Flow 200 Ifpm air 400 Ifpm air 600 Ifpm air 800 Ifpm air SKINNYDIP 17 63 60 52 43 39 PLCC 11 51 43 38 34 30 Unit C/W C/W C/W C/W C/W C/W Plastic jc Considerations The data listed for plastic jc are for reference only and are not recommended for use in calculating junction temperatures. The heat-flow paths in plastic-encapsulated devices are complex, making the jc measurement relative to a specific location on the package surface. Tests indicate this measurement reference point is directly below the die-attach area on the bottom center of the package. Furthermore, jc tests on packages are performed in a constant-temperature bath, keeping the package surface at a constant temperature. Therefore, the measurements can only be used in a similar environment. 2-348 PALCE29M16H-25 |
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