QP7C245A
October 12, 2007
2945 Oakmead Village Ct, Santa Clara, CA 95051 • Phone: (408) 737-0992 • Fax: (408) 736—8708 • Internet: www.qpsemi.com
2K x 8 Reprogrammable Registered PROM
Features
• 5V ±10% VCC, commercial, industrial and military • Direct replacement for Cypress PROMs
• Windowed Packages available for reprogrammability • EPROM technology 100% programmable
• OTP (One-Time-Programmable) Packages available • TTL-compatible I/O
• Programmable asynchronous register (INITbar) • On-chip edge-triggered registers
• Programmable synchronous or asynchronous output
enable • CMOS for optimum speed/power
• High speed
- 15 ns address set-up
- 10 ns clock to output
• Low power
- 660 mW (industrial & military)
- 330 mW (commercial 25ns)
• Slim, 300-mil, 24 pin hermetic DIP available • Direct replacement for bipolar PROMs
General Description
The QP7C245A is a high-performance, 2K x 8, electrically programmable, read-only memory packaged in a variety
of packages. The ceramic packages may be equipped with an erasure window; when exposed to UV light the
PROM is erased and can then be reprogrammed. The memory cells utilize proven EPROM floating-gate
technology and byte-wide intelligent programming algorithms.
The QP7C245A replaces Cypress and bipolar devices. When replacing bipolar devices, it offers the advantages
of lower power, reprogrammability, superior performance and high programming yield. The EPROM cell requires
only 12.5V for the supervoltage, and low current requirements allow gang programming. The EPROM cells allow
each memory location to be tested 100%, because each location is written into, erased, and exercised prior to
assembly.
Each PROM is also tested for AC performance to guarantee that after customer programming the product will
meet AC specification limits.
The QP7C245A has an asynchronous initialize function (INIT). This function acts as a 2049th 8-bit word loaded
into the on-chip register. It is user programmable with any desired word, or may be used as a PRESET or CLEAR
function on the outputs. A low level, not an edge, triggers INIT.
The devices are available in windowed packages (Erasable when exposed to UV light) and are also available in
non-windowed OTP (One-Time-Prog rammable) hermetic and plastic packages.
QP Semiconductor products, unless manufactured and marked by QP Semiconductor as Class S or Class V products, are not
authorized for use in any space applications. The inclusion of non Class S or Class V QP Semiconductor products in space
applications implies that the space appli cation manufacturer assumes all risks of such use and in doing so indemnifies QP
Semiconductor against all liability.
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 2 of 11
Connection Diagrams
CerDIP/PDIP/Cerpack 24 Lead LLCC/LCC/PLCC
QP7C245A
Hermetic Packages available in both
Erasable (Windowed) and OTP –
One-Time-Programmable (Non-
Windowed) versions.
Molded Plastic Packages
(PDIP/PLCC) are only available as
OTP (Non-Windowed).
Block Diagram
QP7C245A
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 3 of 11
Absolute Maximum Ratings
Stresses above the AMR may cause permanent damage, extended operation at AMR may degrade performance and affect reliability
Condition Units Notes
Supply Voltage to Ground -0.5 to 7.0 Volts /1
DC Voltage Applied to Outputs in High Z
State
-0.5 to 7.0 Volts /1
DC Input Voltage -3.0V to 7.0 Volts /1
DC Program Voltage 13.0 Volts
UV Exposure 7258 WSEC/cm2
Storage Temperature -65 to +155 ºC
Ambient Temperature with Power Applied -55 to +125 ºC /2
Junction Temperature 150 ºC /3 /4
Recommended Operating Conditions
Condition Units Notes
Supply Voltage Range 4.5 to 5.5 Volts DC 5V ± 10%
Case Operating Range (Tc) -0C to +70 ºC Commercial
Case Operating Range (Tc) -40C to +85 ºC Industrial
Case Operating Range (Tc) -55 to +125 ºC Military
Notes:
Apply to Absolute Maximum, Recommended Operating Conditions and Electrical Performance Characteristics.
/1 – The Voltage on any input or I/O pin cannot exceed the power pin during power-up.
/2 – TA is the “instant on” case temperature.
/3– Applies to all versions, but is critical for molded plastic products. Tj above listed limits can activate
mold compound flame retardant.
/4 – Maximum TJ is not to be exceeded.
/5 – VCC 4.5 to 5.5 Volts
/6 – For devices using the synchronous enable, the device must be clocked after applying these voltages to
perform this measurement.
/7 – For Test Purposes, not more than one output at a time should be shorted. Short circuit test duration
should not exceed 30 seconds.
/8 – Applies only when the synchronous (ES BAR) function is used.
/9 – Applies only when the asynchronous (E BAR)) function is used.
TABLE I – ELECTRICAL PERFORMANCE CHARACTERISTICS
Test Symbol Conditions /5
Case Operating Range (ºC)
Min Max Unit
Output Voltage High VOH V
CC= 4.5V, IOH=-4.0mA 2.4 V
Output Voltage Low VOL V
CC= 4.5V, IOL=16.0mA 0.4 V
Input High Voltage VIH Guaranteed Input logical
High for all inputs 2.0 VCC V
Input Low Voltage VIL Guaranteed Input logical
Low for all inputs 0.8 V
Input Load Current IIX GND≤VOUT≤VCC -10 10 μA
Output Leakage Current /6 I
OZ GND≤VIN≤VCC Output Off -10 10 μA
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 4 of 11
TABLE I – ELECTRICAL PERFORMANCE CHARACTERISTICS
Test Symbol Conditions /5
Case Operating Range (ºC)
Min Max Unit
Output Short Circuit Current /7 I
OS V
CC= 5.5V, VOUT=GND -20 -90 mA
Operating Supply Current ICC V
CC= 5.5V, IOUT=0 mA
15ns Commercial 120 mA
18ns Commercial 120 mA
25ns Commercial 90 mA
35ns Commercial 90 mA
45ns Commercial 90 mA
18ns Military 120 mA
25ns Military 120 mA
35ns Military 120 mA
45ns Military 120 mA
Programming Supply Voltage VPP 12 13 V
Programming Supply Current IPP 50 mA
Input High Programming Voltage VIHP 3.0 V
Input Low Programming Voltage VILP 0.4 V
Input Capacitance CIN TA=25ºC, f=1MHz,
VCC=5.0V
10 pF
Output Capacitance COUT TA=25ºC, f=1MHz,
VCC=5.0V
10 pF
Address Set-up to Clock High TSA QP7C245A - 15 15 nS
QP7C245A - 18 18 nS
QP7C245A - 25 25 nS
QP7C245A - 35 35 nS
QP7C245A - 45 45 nS
Address Hold from Clock High THA QP7C245A - 15 0 nS
QP7C245A - 18 0 nS
QP7C245A - 25 0 nS
QP7C245A - 35 0 nS
QP7C245A - 45 0 nS
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 5 of 11
TABLE I – ELECTRICAL PERFORMANCE CHARACTERISTICS
Test Symbol Conditions /5
Case Operating Range (ºC)
Min Max Unit
Clock High to Valid Output TCO QP7C245A - 15 10 nS
QP7C245A - 18 12 nS
QP7C245A - 25 12 nS
QP7C245A - 35 15 nS
QP7C245A - 45 25 nS
Clock Pulse Width TPWC QP7C245A - 15 10 nS
QP7C245A - 18 12 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 20 nS
ES BAR Set-up to Clock High TSES QP7C245A - 15 10 nS
QP7C245A - 18 10 nS
QP7C245A - 25 12 nS
QP7C245A - 35 15 nS
QP7C245A - 45 15 nS
ES BAR Hold from Clock High THES QP7C245A - 15 5 nS
QP7C245A - 18 5 nS
QP7C245A - 25 5 nS
QP7C245A - 35 5 nS
QP7C245A - 45 5 nS
Delay INITBAR to Valid Output TDI QP7C245A - 15 15 nS
QP7C245A - 18 20 nS
QP7C245A - 25 20 nS
QP7C245A - 35 20 nS
QP7C245A - 45 35 nS
INITBAR Recovery to Clock High TRI QP7C245A - 15 10 nS
QP7C245A - 18 12 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 20 nS
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 6 of 11
TABLE I – ELECTRICAL PERFORMANCE CHARACTERISTICS
Test Symbol Conditions /5
Case Operating Range (ºC)
Min Max Unit
INITBAR Pulse Width TPWI QP7C245A - 15 10 nS
QP7C245A - 18 12 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 25 nS
Valid Output from Clock High /8 T
COS QP7C245A - 15 15 nS
QP7C245A - 18 15 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 30 nS
Inactive Output from Clock High THZC QP7C245A - 15 15 nS
/8 QP7C245A - 18 15 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 30 nS
Valid Output from EBAR Low /9 T
DOE QP7C245A - 15 12 nS
QP7C245A - 18 15 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 30 nS
Inactive Output from EBAR High THZE QP7C245A - 15 15 nS
/9 QP7C245A - 18 15 nS
QP7C245A - 25 15 nS
QP7C245A - 35 20 nS
QP7C245A - 45 30 nS
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 7 of 11
AC Test Loads
Waveforms
Operating Modes
The QP7C245A is a CMOS electrically programmable read only memory organized as 2048 words x 8
bits and is a pin-for-pin replacement for bipolar TTL fusible link PROMs. The QP7C245A incorporates a
D-type, master-slave register on chip, reducing the cost and size of pipelined microprogrammed
systems and applications where accessed PROM data is stored temporarily in a register. Additional
flexibility is provided with a programmable synchronous (EbarS) or asynchronous (Ebar) output enable
and asynchronous initialization (INITbar).
Upon power-up the state of the outputs will depend on the programmed state of the enable function
(EbarS or Ebar). If the synchronous enable (EbarS) has been programmed, the register will be in the set
condition causing the outputs (O0–O7) to be in the OFF or high-impedance state. If the asynchronous
enable (Ebar) is being used, the outputs will come up in the OFF or high-impedance state only if the
enable (Ebar) input is at a HIGH logic level. Data is read by applying the memory location to the address
inputs (A0–A10) and a logic LOW to the enable input. The stored data is accessed and loaded into the
master flip-flops of the data register during the address set-up time. At the next LOW-to-HIGH
transition of the clock (CP), data is transferred to the slave flip-flops, which drive the output buffers,
and the accessed data will appear at the outputs (O0–O7).
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 8 of 11
If the asynchronous enable (Ebar) is being used, the outputs may be disabled at any time by switching
the enable to a logic HIGH, and may be returned to the active state by switching the enable to a logic
LOW.
If the synchronous enable (EbarS) is being used, the outputs will go to the OFF or high-impedance state
upon the next positive clock edge after the synchronous enable input is switched to a HIGH level. If the
synchronous enable pin is switched to a logic LOW, the subsequent positive clock edge will return the
output to the active state. Following a positive clock edge, the address and synchronous enable inputs
are free to change since no change in the output will occur until the next low-to-high transition of the
clock. This unique feature allows the QP7C245A decoders and sense amplifiers to access the next
location while previously addressed data remains stable on the outputs.
System timing is simplified in that the on-chip edge triggered register allows the PROM clock to be
derived directly from the system clock without introducing race conditions. The on-chip register timing
requirements are similar to those of discrete registers available in the market.
The QP7C245A has an asynchronous initialize input (INITbar). The initialize function is useful during
power-up and time-out sequences and can facilitate implementation of other sophisticated functions
such as a built-in “jump start” address. When activated, the initialize control input causes the contents
of a user-programmed 2049th 8-bit word to be loaded into the on-chip register. Each bit is
programmable and the initialize function can be used to load
any desired combination of 1s and 0s into the register. In the
unprogrammed state, activating INIT will generate a register
CLEAR (all outputs LOW). If all the bits of the initialize word
are programmed, activating INIT performs a register PRESET
(all outputs HIGH).
Applying a LOW to the INITbar input causes an immediate load
of the programmed initialize word into the master and slave
flip-flops of the register, independent of all other inputs,
including the clock (CP). The initialize data will appear at the
device outputs after the outputs are enabled by bringing the
asynchronous enable (Ebar) LOW.
Mode Selection Pin Function /10
Read or Output Disable A10-A4 A3 A2-A1 A0 CP EBAR,
ES BAR INIT O7-O0
Other A10-A4 A3 A2-A1 A0 PGM VFY VPP D7-D0
Read A10-A4 A3 A2-A1 A0 VIL / VIH V
IL V
IH O7-O0
Output Disable A10-A4 A3 A2-A1 A0 X VIH V
IH High Z
Initialize A10-A4 A
3 A
2-A1 A
0 X VIL V
IL Init
Byte
Program A10-A4 A3 A2-A1 A0 VILP V
IHP V
PP D7-D0
Program Verify A10-A4 A3 A2-A1 A0 VIHP V
ILP V
PP O7-O0
Program Inhibit A10-A4 A3 A2-A1 A0 VIHP V
IHP V
PP High Z
Intelligent Program A10-A4 A3 A2-A1 A0 VILP V
IHP V
PP D7-D0
Program Synchronous Enable A10-A4 VIHP A2-A1 VPP V
IHP V
IHP V
PP High Z
Program Initialization Byte A10-A4 VIHP A2-A1 VPP V
ILP V
IHP V
PP D7-D0
Blank Check Zeros A10-A4 A3 A2-A1 A0 VIHP V
ILP V
PP Zeros
/10 – X = “Don’t Care”, but not to exceed VCC +5%
Programmer Address RAM Data
Decimal Hex Contents
0 000 Data
1 001 Data
. . .
. . .
2046 7FE Data
2047 7FF Data
2048 800 Init Byte
2049 801 Control Byte
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 9 of 11
Erasure Characteristics:
Wavelengths of light less than 4000 Angstroms begin to erase these PROMs. For this reason, an
opaque label should be placed over the window if the PROM is exposed to sunlight or fluorescent
lighting for extended periods of time.
The recommended dose of ultraviolet light for erasure is a wavelength of 2537 Angstroms for a
minimum dose (UV intensity x exposure time of 25 Wsec/cm2. For an ultraviolet lamp with a 12
mW/cm2 power rating, the exposure time would be approximately 35 minutes. These PROMs need to
be within 1 inch of the lamp during erasure. Permanent damage may result if the PROM is exposed to
high-intensity UV light for an extended period of time.
7258 Wsec/cm2 is the recommended maximum dosage.
Programming Information:
The QP7C245A uses the same programming algorithm as Cypress 7C245A device. A variety of
programming equipment currently supports the Cypress Algorithm. QP Semiconductor has verified
that the devices program on Data I/O Unisite and on a programmer supplied by EETools.
Ordering Information
Temp
Range tAA
ns Part Number Package Mil-Std-1835 Generic
Commerical 15 QP7C245A-15JC 28-Lead PLCC - 7C245A
Commerical 15 QP7C245A-15PC 24-Lead 300-mil Plastic DIP - 7C245A
Commerical 15 QP7C245A-15WC 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Industrial 15 QP7C245A-15JI 28-Lead PLCC - 7C245A
Industrial 15 QP7C245A-15PI 24-Lead 300-mil Plastic DIP - 7C245A
Industrial 15 QP7C245A-15WI 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Commerical 18 QP7C245A-18JC 28-Lead PLCC - 7C245A
Commerical 18 QP7C245A-18PC 24-Lead 300-mil Plastic DIP - 7C245A
Commerical 18 QP7C245A-18WC 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Industrial 18 QP7C245A-18JI 28-Lead PLCC - 7C245A
Industrial 18 QP7C245A-18PI 24-Lead 300-mil Plastic DIP - 7C245A
Industrial 18 QP7C245A-18WI 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 18 5962-89815033A 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 18 5962-8981503KA 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 18 5962-8981503LA 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 18 QP7C245A-18DMB 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 18 QP7C245A-18KMB 24-Lead Flatpack GDFP2-F24 7C245A
Military 18 QP7C245A-18LMB 28-Lead LCC CQCC1-N28 7C245A
Military 18 QP7C245A-18QMB 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 18 QP7C245A-18TMB 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 18 QP7C245A-18WMB 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Commerical 25 QP7C245A-25JC 28-Lead PLCC - 7C245A
Commerical 25 QP7C245A-25PC 24-Lead 300-mil Plastic DIP - 7C245A
Commerical 25 QP7C245A-25WC 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Industrial 25 QP7C245A-25JI 28-Lead PLCC - 7C245A
Industrial 25 QP7C245A-25PI 24-Lead 300-mil Plastic DIP - 7C245A
Industrial 25 QP7C245A-25WI 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 25 5962-88735043A 28-Lead LCC CQCC1-N28 7C245A
Military 25 5962-8873504KA 24-Lead Flatpack GDFP2-F24 7C245A
Military 25 5962-8873504LA 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 25 5962-89815023A 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 25 5962-8981502KA 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 25 5962-8981502LA 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 10 of 11
Temp
Range tAA
ns Part Number Package Mil-Std-1835 Generic
Military 25 QP7C245A-25DMB 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 25 QP7C245A-25KMB 24-Lead Flatpack GDFP2-F24 7C245A
Military 25 QP7C245A-25LMB 28-Lead LCC CQCC1-N28 7C245A
Military 25 QP7C245A-25QMB 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 25 QP7C245A-25TMB 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 25 QP7C245A-25WMB 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Commerical 35 QP7C245A-35JC 28-Lead PLCC - 7C245A
Commerical 35 QP7C245A-35PC 24-Lead 300-mil Plastic DIP - 7C245A
Commerical 35 QP7C245A-35WC 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Industrial 35 QP7C245A-35JI 28-Lead PLCC - 7C245A
Industrial 35 QP7C245A-35PI 24-Lead 300-mil Plastic DIP - 7C245A
Industrial 35 QP7C245A-35WI 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 35 5962-87529023A 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 35 5962-87529023C 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 35 5962-8752902KA 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 35 5962-8752902LA 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 35 5962-88735023A 28-Lead LCC CQCC1-N28 7C245A
Military 35 5962-8873502KA 24-Lead Flatpack GDFP2-F24 7C245A
Military 35 5962-8873502LA 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 35 5962-88735033A 28-Lead LCC CQCC1-N28 7C245A
Military 35 5962-8873503KA 24-Lead Flatpack GDFP2-F24 7C245A
Military 35 5962-8873503LA 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 35 5962-89815013A 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 35 5962-8981501KA 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 35 5962-8981501LA 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 35 QP7C245A-35DMB 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 35 QP7C245A-35KMB 24-Lead Flatpack GDFP2-F24 7C245A
Military 35 QP7C245A-35LMB 28-Lead LCC CQCC1-N28 7C245A
Military 35 QP7C245A-35QMB 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 35 QP7C245A-35TMB 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 35 QP7C245A-35WMB 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Commerical 45 QP7C245A-45JC 28-Lead PLCC - 7C245A
Commerical 45 QP7C245A-45PC 24-Lead 300-mil Plastic DIP - 7C245A
Commerical 45 QP7C245A-45WC 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Industrial 45 QP7C245A-45JI 28-Lead PLCC - 7C245A
Industrial 45 QP7C245A-45PI 24-Lead 300-mil Plastic DIP - 7C245A
Industrial 45 QP7C245A-45WI 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 45 5962-87529013A 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 45 5962-87529013C 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 45 5962-8752901KA 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 45 5962-8752901LA 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
Military 45 5962-88735013A 28-Lead LCC CQCC1-N28 7C245A
Military 45 5962-8873501KA 24-Lead Flatpack GDFP2-F24 7C245A
Military 45 5962-8873501LA 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 45 QP7C245A-45DMB 24-Lead 300-mil CerDIP GDIP3-T24 7C245A
Military 45 QP7C245A-45KMB 24-Lead Flatpack GDFP2-F24 7C245A
Military 45 QP7C245A-45LMB 28-Lead LCC CQCC1-N28 7C245A
Military 45 QP7C245A-45QMB 28-Lead Windowed LCC CQCC1-N28 7C245A
Military 45 QP7C245A-45TMB 24-Lead Windowed Flatpack GDFP2-F24 7C245A
Military 45 QP7C245A-45WMB 24-Lead 300-mil Windowed CerDIP GDIP3-T24 7C245A
* denotes Lead Free Lead Finish
QP7C245A
QP SEMI, 2945 Oakmead Village Court, Santa Clara, CA 95051 Page 11 of 11
In addition to those products listed above, QP Semiconductor supports Industrial Temperature Range, Source Control Drawing (SCD),
and custom package development for this product family.
Notes:
Package outline information and specifications are defined by Mil-Std-1835 package dimension requirements.
Products manufactured by QP Semiconductor are compliant to the assembly, burn-in, test and quality conformance requirements of
Test Methods 5004 & 5005 of Mil-Std-883 for Class B or Q devices as appropriate. The appropriate DSCC Detail Specifications
define the electrical test requirements for each device.
The listed drawings, Mil-PRF-38535, Mil-Std-88 3 and Mil-Std-1835 are available online at http://www.dscc.dla.mil/
Additional information is available at our website http://www.qpsemi.com
