SMDJ-65608EV-30SC - Atmel Corporation

Rev. F–20-Aug-01

Features

•Operating voltage: 5V

•Access time: 30, 45ns

•Very low power consumption

– active: 250mW (Typ)

– standby: 1 µW (Typ)

– data retention: 0.5 µW (Typ)

•Wide temperature Range: -55°C to +125°C

•400Mils width package

•TTL compatible inputs and outputs

•Asynchronous

•Single 5 volt supply

•Equal Cycle and access time

•Gated inputs:

–no pull-up/down

–resistors are required

•QML Q and V with SMD 5962-89598

Description

The M65608E is a very low power CMOS static RAM organized as 131072 x 8bits.

Atme l Wireles s & Microc ontrol lers bring s the sol ution to app licat ions wher e fast co m-

puting is as mandatory as low consumption, such as aerospace electronics, portable

instruments, or embarked systems.

Utilizing an array of s ix transistors (6T ) memory cel ls, the M65608E c ombines an

extremely low standby supply current (Typical va lue= 20µA) with a fast access time at

30ns ove r th e fu ll m il itar y te mpe rat ure r an ge. The high s tab il ity of the 6T c ell pr ovi des

excellent protection against soft errors due to noise.

The M6560 8E is proc esse d acco rding to t he method s of the late st revis ion of the MI L

STD 883 (class B or S), ESA SCC 9000 or QML.

Rad Tolerant

5V 128 K x 8

V ery Low Power

CMOS SRAM

M65608E

Rev. F–20-Aug-01

Interface

Block Diagram

3M65608E Rev. F–20-Aug-01

Pin Configuration

Table 1. Pin Names

Table 2. Truth Table

L = low, H = high, X = H or L, Z = high impedance.

32 pins DIL side-brazed 400 MILS

32 pins Flatpack 400 MILS

A0-A16 Address inputs

I/O0- I/O7 Data Input/Output

CS1 Chip select 1

CS2 Chip select 2

W Write Enable

OE Output Enable

VCC Power

GND Ground

CS1 CS2 W OE INPUTS/

OUTPUTS MODE

HXXXZ

Deselect/

Power-down

XLXXZ

Deselect/

Power Down

L H H L Data Out Read

L H L X Data In Write

L H H H Z Output Disable

M65608E

Rev. F–20-Aug-01

Electrical Characteristics

Absolute Maximum

Ratings Supply voltage to GND potential:.....................................-0.5V + 7.0V

DC input voltage:.............................................................GND - 0.3V to VCC + 0.3

DC output voltage high Z state: .......................................GND - 0.3V to VCC + 0.3

Stora ge temperature:.......... ................. ..... ...... ..... ...... ......-6 5°C to +150°C

Output current into outputs (low):.....................................20mA

Electro statics discharge voltage: ....................................> 2001V

(MIL STD 883D method 3015.3)

Operating Range

Recommended DC Operating Conditions

Capacitance

OPERATING VOLTAGE OPERATING TEMPERATURE

Military 5V + 10% -55°C to + 125°C

PARAMETER DESCRIPTION MINIMUM TYPICAL MAXIMUM UNIT

Vcc Supply voltage 4.5 5.0 5.5 V

Gnd Ground 0.0 0.0 0.0 V

VIL Input low voltage GND - 0.3 0.0 0.8 V

VIH Input high voltage 2.2 - VCC + 0.3 V

PARAMETER DESCRIPTION MINIMUM TYPICAL MAXIMUM UNIT

Cin (1)

1. Guaranteed but not tested.

Input low voltage - - 8 pF

Cout (1) Output high voltage - - 8 pF

5M65608E Rev. F–20-Aug-01

DC Parameters

Consumption

AC Parameters Input pulse levels:.............................................Gnd to 3.0 V

Input rise: .........................................................5 ns

Input timing refer ence lev els: ........................... 1. 5 V

Output loading IOL/IOH (see figure 1a and 1b):.....+30 pF

AC Test Loads Waveforms

PARAMETER DESCRIPTION MINIMUM TYPICAL MAXIMUM UNIT

IIX (1)

1. Gnd < Vin < Vcc, Gnd < Vout < Vcc Output Disabled.

Input leakage current -1 - 1 µA

IOZ (1) Output leakage current -1 - 1 µA

VOL (2)

2. Vcc mi n. IOL = 1 mA.

Output low voltage - - 0.4 V

VOH (3)

3. Vcc min. IOH = -0.5 mA.

Output high voltage 2.4 - - V

SYMBOL DESCRIPTION 65608E

- 30 65608E

- 45 UNIT VALUE

ICCSB (1) St andby supply cur rent 2 2 mA max

ICCSB1 (2) Standby supply current 300 300 µA max

ICCOP (3) Dynamic operating

current 130 100 mA max

1. CS1 > VIH or CS2 < VIL and CS1 < VIL.

2. CS1 > Vcc - 0.3V or, CS2 < Gnd + 0.3 V and CS1 < 0.2V

3. F = 1/TAVAV, Iout = 0 mA, W = OE = VIH, Vin = Gnd or Vcc, Vcc max.

Figure 1a Figure 1b Figure 2

M65608E

Rev. F–20-Aug-01

Data Retention Mode A tmel CMOS RAM’s are designed with battery backup in mind. Data retention voltage

and supply current ar e guaranteed over tem perature. The following r ules ensure data

retention:

1. During da ta retention chip select CS1 must be held high within VCC to VCC -

0.2V or, chip select CS2 must be held down within GND to GND +0.2V.

2. Output Enable (OE) should be held high to keep the RAM outputs high imped-

ance, minimizing power dissipation.

3. During power up and power down transitions CS1 and OE must be kept between

VCC + 0.3V and 70% of VCC, or with CS2 between GND and GND -0.3V.

4. The RAM can begin operation > TR ns after VCC reaches the minimum opera-

tion voltages (4.5V).

Timing

Data Retention Characteristics

Note: *TAVAV = Read Cycle Time

**CS1 = Vcc or CS2 = CS1 = GND, Vin = Gn d/Vc c, thi s p ara me ter i s o nl y t est ed at Vc c =

2V.

Parameter Description Minimum Typical

TA=25 °C Maximum Unit

VCCDR Vcc for data

retention 2.0 V

TCDR Chip deselect to

data retention

time 0.0 ns

TR Operation

recovery time TAVAV (*) ns

ICCDR1 (**) Data retention

current @ 2.0V -0.1 150

200

µA

ICCDR2 (**) Data retention

current @ 3.0V -0.2 µA

7M65608E Rev. F–20-Aug-01

Write Cycle

Read Cycle

SYMBOL PARAMETER 65608-30 65608-45 UNIT VALUE

TAVAW Write cycle time 30 45 ns min

TAVWL Address set-up time 0 0 ns min

TAVWH Address valid to end of write 22 35 ns min

TDVWH Data set-up time 18 25 ns m in

TE1LWH CS1 low to write end 22 35 ns min

TE2HWH CS2 high to write end 22 35 ns m in

TWLQZ Writ e low to high Z (1)

1. Parameters guaranteed, not tested, with output loading 5 pF. (see 1b)

815ns max

TWLWH Write pulse width 22 35 ns min

TWHAX Address hold from to end of

write 00 nsmin

TWHDX Data hold time 0 0 ns m in

TWHQX Write high to low Z (1) 00 nsmin

SYMBOL PARAMETER 65608-30 65608-45 UNIT VALUE

TAVAV Read cyc le time 30 45 ns min

TAVQV Address access time 30 45 ns max

TAVQX Address valid to low Z 5 5 ns min

TE1LQV Chip-select1 access

time 30 45 ns max

TE1LQX CS1 low to low Z (1)

1.*Parameters Guaranteed, not tested, with output loading 5 pF (see , 1b)

33nsmin

TE1HQZ CS1 high to high Z (1) 18 20 ns max

TE2HQV Chip-select2 access

time 30 45 ns max

TE2HQX CS2 high to low Z (1) 33nsmin

TE2LQZ CS2 low to high Z (1) 18 20 ns max

TGLQV Output Enable access

time 12 15 ns max

TGLQX OE low to low Z (1) 00nsmin

TGHQZ OE high to high Z (1) 815nsmax

M65608E

Rev. F–20-Aug-01

Write Cycle 1. W Controlled. OE High During Write

Write Cycle 2. W Controlled. OE Low.

9M65608E Rev. F–20-Aug-01

Write Cycle 3. CS1 or CS2 Controlled.

Note: The internal write time of the memory is defined by the overlap of CS1 Low and CS2

HIGH and W LOW. Both signals must be actived to initiate a write and either signal can

terminate a write by going in actived. The data input setup and hold timing should be ref-

erenced to the actived edge of the signal that terminates the write. Data out is high

impedance if OE = VIH.

M65608E

Rev. F–20-Aug-01

Read Cycle nb 1

Read Cycle nb 2

Read Cycle nb 3

11 M65608E Rev. F–20-Aug-01

Ordering Information

Note: (*)contact factory

Table 3. Possible order entries

Part-number Temperature range Speed Package Flow

MMDJ-65608EV-30 -55° to +125°30 ns FP32.4 Standard Mil

MMDJ-65608EV-45 -55° to +125°45 ns FP32.4 Standard Mil

MMC9-65608EV-30 -55° to +125°30 ns SB32.4 St andard Mil

MMC9-65608EV-45 -55° to +125°45 ns SB32.4 St andard Mil

SMDJ-65608EV-30SC -55° to +125°30 ns FP32.4 SCC C

SMDJ-65608EV-45SC -55° to +125°45 ns FP32.4 SCC C

SMC9-65608EV-30SC -55° to +125°30 ns SB32.4 SCC C

SMC9-65608EV-45SC -55° to +125°45 ns SB32.4 SCC C

SMDJ-65608EV-30SB -55° to +125°30 ns FP32.4 SCC B

SMDJ-65608EV-45SB -55° to +125°45 ns FP32.4 SCC B

SMC9-65608EV-30SB -55° to +125°30 ns SB32.4 SCC B

SMC9-65608EV-45SB -55° to +125°45 ns SB32.4 SCC B

MMDJ-65608EV-30/883(*) -55° to +125°30 ns FP32.4 MIL 883 B

MMDJ-65608EV-45/883(*) -55° to +125°45 ns FP32.4 MIL 883 B

MMC9-65608EV-30/883(*) -55° to +125°30 ns SB32.4 MIL 883 B

MMC9-65608EV-45/883(*) -55° to +125°45 ns SB32.4 MIL 883 B

SMDJ-65608EV-30/883(*) -55° to +125°30 ns FP32.4 MIL 883 S

SMDJ-65608EV-45/883(*) -55° to +125°45 ns FP32.4 MIL 883 S

SMC9-65608EV-30/883(*) -55° to +125°30 ns SB32.4 MIL 883 S

SMC9-65608EV-45/883(*) -55° to +125°45 ns SB32.4 MIL 883 S

5962-895647QTC -55° to +125°30 ns FP32.4 QML Q

5962-895618MTC -55° to +125°45 ns FP32.4 QML Q

5962-895647VTC -55° to +125°30 ns FP32.4 QML V

5962-895618VTC -55° to +125°45 ns FP32.4 QML V

5962-895647QZC -55° to +125°30 ns SB32.4 QML Q

5962-895618MZC -55° to +125°45 ns SB32.4 QML Q

5962-895647VZC -55° to +125°30 ns SB32.4 QML V

5962-895618VZC -55° to +125°45 ns SB32.4 QML V

MMDJ-65608EV-30-E 25°30 ns FP32.4 Engineering Samples

MMC9-65608EV-30-E(*) 25°30 ns SB32.4 Engineering Samples

MM0-65608EV-30-E 25°30 ns Die Engineering Samples

5962-895647Q6A -55° to +125°30 ns Die QML Q

5962-895647V6A -55° to +125°30 ns Die QML V

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which is detailed in Atmel’s Terms and Conditions located on the Company’s web site. The Company assumes no responsibility for any errors

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components in life support dev ices o r systems .

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